International Conference on Condensed Matter Physics
NEXT EVENT SESSION
19-20 October 2023 (Instant E-Certificate)
For Enquiries:
cmp@sfconferences.com
Next Webinar Conference Session starts in
About the Conference
Introduction of the conferences
Condensed Matter Physics conferences is a series of annual events that bring together scientists, researchers, and experts in the fields of Condensed Matter Physics from all over the world. The conference provides a forum for the exchange of knowledge and ideas in these rapidly evolving and dynamic fields. The International Conferences on Condensed Matter Physics is a vital and dynamic event that plays a crucial role in advancing the fields of Condensed Matter Physics
Theme: Exploring the Advancements in Condensed Matter Physics
Call for paper
Call for Abstract/paper
Original Articles/papers are invited from Industry Persons, Scientist, Academician, Research Scholars, P.G. & U.G. Students for presentation in our International Conference. All articles/papers must be in MS-Word (.doc or .docx) format, including the title, author's name, an affiliation of all authors, e-mail, abstract, keywords, Conclusion, Acknowledgment, and References.
Submit Abstract
The Candidates with eligibility can click the "Submit Paper/Abstract Now" button and fill up the online submission form and Submit.
Abstract/Full Paper submission
Final/Full Paper submission is optional: If you don't want your abstract/full paper to be published in the Conference Abstracts & Proceedings CD (with ISBN number) and only want to present it at the conference, it is acceptable.
Page limit: There is a limit of 6-8 pages for a final/full paper. An additional page is chargeable.
Paper language: Final/Full papers should be in English.
Templates: "Final paper template," "Final abstract template"
All the final papers should be uploaded to the website online system according to "The final paper template" as word doc. Or Docx, since this will be the camera-ready published version. Please note that final papers that are not uploaded to online System as a word doc./docx after the opening of final paper submissions according to the template above will not be published in the CONFERENCE Abstracts & Proceedings CD (with ISBN)
Journal Publication
Journal Publication
Condensed Matter Physics Conferences All accepted papers will be included in the conference proceedings, which will be recommended in one of the author's prescribed ScienceFather International journals.
Registration
Registration Procedure
- Click the “Register Now” button on the conference page and enter your Submission ID in the Search Box
- Your Submissions will be listed on that page. You can find the Register Now link beside your submission. Click the link, and now you will be redirected to the Conference registration form where you can make your registration using credit/debit cards.
- The Fee charged for E-Poster is to display the E-Posters only on the Website. The Abstract will be published in the conference proceeding book.
Registration Types
Speaker Registration
- Access to all event Session
- Certificate of Presentation
- Handbook
- Conference Kit
- Tea, Coffee & Snack,
- Lunch during the Conference
- Publication of Abstract /Full Paper at the Conference Proceedings Book
- Opportunity to give a Keynote/ Poster Presentations/ Plenary/ Workshop
- Opportunity to publish your Abstract in any of our esteemed Journals discounted rate
- Opportunity to publish your full article in our open access book at a discounted rate
- One to One Expert Forums
Delegate (Participant) Registration
- Access to all Event Sessions
- Participation Certificate
- Handbook
- Conference Kit
- Tea, Coffee & Snack,
- Lunch during the Conference
- Delegates are not allowed to present
Poster Registration
- Includes all the above Registration Benefits
- You will have to bring your Posters to the Conference Venue
- Best poster award memento and certificate on stage.
Poster Guidelines
- The poster should be 1×1 m Size.
- The title, contents, text, and the author’s information should be visible.
- Present numerical data in the form of graphs rather than tables.
- Figures make trends in the data much more evident.
- Avoid submitting high word-count posters.
- Poster contains, e.g., Introduction, Methods, Results, Discussion, Conclusions, and Literature.
Research Forum (Awards)
- Includes all the above Registration Benefits.
- The attendee should be required age limit.
- Award memento and certificate on stage.
E-Poster Presentation
- The amount charged for E-Posters is to display the E-Posters only on the website
- The presenter will get an e-poster participation certificate as a soft copy
- The abstract will be published in the particular journal and also in the conference proceeding book
- The presenter is not required to be present in person at the Conference
Video Presentation
- The amount charged for Video Presentation is to display the Presentation at the Conference.
- The presenter will get Video participation certificate as a soft copy
- The abstract will be published in the particular journal and also in the conference proceeding book
- The presenter is not required to be present in person at the Conference
Accompanying Person
- Accompanying Persons attend the participants at the Conference who may be either a spouse/family partner or a son/daughter and must register under this category.
- Please note that business partners do not qualify as Accompanying Persons and cannot register as an Accompanying Person.
Committee Members
Committee Members
Title | First Name | Last Name | Institution/Organization | Country |
---|---|---|---|---|
Dr | Halima Omari | Mangi | Sokoine University of Agriculture | Tanzania |
Dr | Vivek | Walia | National Center for Research on Earthquake Engineering | Taiwan |
Dr | Walaa | Shaltout | Survey of Natural Resources Department, Environmental Studies and Research Institute, University of Sadat City, Egypt | Egypt |
Dr | Sanjib Bhattacharya | Bhattacharya | University of North Bengal | India |
Assist Prof Dr | Hamada | Shoukry | Housing and building national research center | Egypt |
Prof | FARUKH | ARJMAND | Aligarh Muslim University | India |
Assoc Prof Dr | Walied A. | Mohamed | National research Centre | Egypt |
Assist Prof Dr | Moustafa | Sanad | CMRDI | Egypt |
Assist Prof Dr | Asma | Alenad | Jouf university | Saudi Arabia |
Prof Dr | Abdel-Aal | Gaber | Assiut University | Egypt |
Prof | Muhammad Farooq | Khan | Sejong University | South Korea |
Prof | Elaheh | Goharshai | Ferdowsi University of Mashhad | Iran |
Dr | Prabir | Pal | CSIR-Central Glass and Ceramic Research Institute | India |
Mr | Tao | Jiang | University of Groningen | Netherlands |
Dr | Rashmi Rani | Konczykowski | 3D-OXIDES | France |
Prof Dr | OMID | Mirzaee | Semnan University | Iran |
Dr | Roghaieh | Parvizi | university of Glasgow | United Kingdom |
Dr | Mahendra | Ram | IIT Patna | India |
Assist Prof Dr | Francisxavier | Paularokiadoss | St. Joseph's College of Arts and Science (Autonomous), Cuddalore-1 | India |
Dr | Kamalika | Sen | University of Calcutta | India |
Dr | Aobo | Ren | University of Electronic Science and Technology of China | China |
Title | First Name | Last Name | Institution/Organization | Country |
Conference Awards
Details of Conference Awards
ScienceFather awards Researchers and Research organizations around the world with the motive of Encouraging and Honoring them for their Significant contributions & Achievements for the Advancement in their field of expertise. Researchers and scholars of all nationalities are eligible to receive ScienceFather Research awards. Nominees are judged on past accomplishments, research excellence, and outstanding academic achievements.
Award Categories
Best Poster Award
Posters will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentation. Posters should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. The size of the poster should be: 1mX1.5m; Text:16-26 pt; Headings: 32-50 pt; Title: 70 pt; Color: Preferable. Bring your poster to the meeting, using tubular packaging and presenting duration: 10 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 40 years of age as on the conference date.
Best Presentation Award
The presentation will be evaluated based on Presentation Style, Research Quality, and Layout/Design. Unique opportunity to combine visual and oral explanations of your projects in the form of poster presentations. The presentation should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Bring your presentation to the meeting, using a pen drive, presenting duration: 10-20 min discussion & 5 min query per person. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.
Best Paper Award
Paper will be evaluated based on Format, Research Quality, and Layout/Design. The paper should have the Title (with authors affiliation & contact details), Introduction, Methods, Results (with tables, graphs, pictures), Discussion, Conclusion, References, and Acknowledgements. Eligibility: The presenter can nominate the Award. He must be under 55 years of age as of the conference date.
Instructions
Instructions for submission
If you want to submit only your Abstract
- If you want to publish only your abstract (it is also optional) in the CONFERENCE Abstracts & Proceedings CD (with ISBN), upload your abstract again according to the Final abstract template as a word doc. Or Docx.
- If you also don't want your abstract to be published in the CONFERENCE Abstracts & Proceedings CD (with an ISBN) and only want to present it at the conference, it is also acceptable.
How to Submit your Abstract / Full Paper
Please read the instructions below then submit your Abstract/ Full Paper (or just final abstract) via the online conference system:
- STEP 1: Please download the Abstract /Final Paper Template and submit your final paper strictly according to the template: Organic Chemistry Conference Final Paper Template in word format (.doc /.docx). See a Final abstract template formatted according to the template.
- STEP 2: Please ensure that the Abstract/ full paper follows exactly the format and template described in the final paper template document below since this will be the camera-ready published version. All last articles should be written only in English and "word document" as .doc or .docx.
- STEP 3: You can submit your final paper(s) to the online conference system only by uploading/ Re-submission your current submission.
- STEP 4: After logging/using submission ID in the online conference system, click on the "Re-submission" link at the bottom of the page.
- STEP 5: After the "Re submission page" opens, upload your abstract/ final paper (it should be MS word document -doc. or Docx-).
General Information
- Dress Code: Participants have to wear a formal dress. There are no restrictions on color or design. The audience attending only the ceremony can wear clothing of their own choice.
- Certificate Distribution: Each presenter's name will be called & asked to collect their certificate on the Stage with an official photographer to capture the moments.
Terms & Conditions
ScienceFather Terms & Conditions
Condensed Matter Physics Conferences Terms & Conditions Policy was last updated on June 25, 2022.
Privacy Policy
Condensed Matter Physics conferences customer personal information for our legitimate business purposes, process and respond to inquiries, and provide our services, to manage our relationship with editors, authors, institutional clients, service providers, and other business contacts, to market our services and subscription management. We do not sell, rent/ trade your personal information to third parties.
Relationship
Condensed Matter Physics Conferences Operates a Customer Association Management and email list program, which we use to inform customers and other contacts about our services, including our publications and events. Such marketing messages may contain tracking technologies to track subscriber activity relating to engagement, demographics, and other data and build subscriber profiles.
Disclaimer
All editorial matter published on this website represents the authors' opinions and not necessarily those of the Publisher with the publications. Statements and opinions expressed do not represent the official policies of the relevant Associations unless so stated. Every effort has been made to ensure the accuracy of the material that appears on this website. Please ignore, however, that some errors may occur.
Responsibility
Delegates are personally responsible for their belongings at the venue. The Organizers will not be held accountable for any stolen or missing items belonging to Delegates, Speakers, or Attendees; due to any reason whatsoever.
Insurance
Condensed Matter Physics conferences Registration fees do not include insurance of any kind.
Press and Media
Press permission must be obtained from the Condensed Matter Physics conferences Organizing Committee before the event. The press will not quote speakers or delegates unless they have obtained their approval in writing. This conference is not associated with any commercial meeting company.
Transportation
Condensed Matter Physics Conferences Please note that any (or) all traffic and parking is the registrant's responsibility.
Requesting an Invitation Letter
Condensed Matter Physics Conferences For security purposes, the invitation letter will be sent only to those who had registered for the conference. Once your registration is complete, please contact cmp@sfconferences.com to request a personalized letter of invitation.
Cancellation Policy
If Condensed Matter Physics Conferences cancels this event, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Condensed Matter Physics Conferences event, which must occur within one year from the cancellation date.
Postponement Policy
Suppose condensed Matter Physics Conferences postpones an event for any reason and you are unable or indisposed to attend on rescheduled dates. In that case, you will receive a credit for 100% of the registration fee paid. You may use this credit for another Condensed Matter Physics Conferences, which must occur within one year from the date of postponement.
Transfer of registration
Condensed Matter Physics Conferences All fully paid registrations are transferable to other persons from the same organization if the registered person is unable to attend the event. The registered person must make transfers in writing to cmp@sfconferences.com. Details must include the full name of an alternative person, their title, contact phone number, and email address. All other registration details will be assigned to the new person unless otherwise specified. Registration can be transferred to one conference to another conference of ScienceFather if the person cannot attend one of the meetings. However, Registration cannot be transferred if it will be intimated within 14 days of the particular conference. The transferred registrations will not be eligible for Refund.
Visa Information
Condensed Matter PhysicsConferences Keeping given increased security measures, we would like to request all the participants to apply for Visa as soon as possible. ScienceFather will not directly contact embassies and consulates on behalf of visa applicants. All delegates or invitees should apply for Business Visa only. Important note for failed visa applications: Visa issues cannot come under the consideration of the cancellation policy of ScienceFather , including the inability to obtain a visa.
Refund Policy
Condensed Matter Physics Conferences Regarding refunds, all bank charges will be for the registrant's account. All cancellations or modifications of registration must make in writing to cmp@sfconferences.com
If the registrant is unable to attend and is not in a position to transfer his/her participation to another person or event, then the following refund arrangements apply:
Keeping given advance payments towards Venue, Printing, Shipping, Hotels and other overheads, we had to keep Refund Policy is as following conditions,
- Before 60 days of the Conference: Eligible for Full Refund less $100 Service Fee
- Within 60-30 days of Conference: Eligible for 50% of payment Refund
- Within 30 days of Conference: Not eligible for Refund
- E-Poster Payments will not be refunded.
Accommodation Cancellation Policy
Condensed Matter Physics Conferences Accommodation Providers such as hotels have their cancellation policies, and they generally apply when cancellations are made less than 30 days before arrival. Please contact us as soon as possible if you wish to cancel or amend your accommodation. ScienceFather will advise your accommodation provider's cancellation policy before withdrawing or changing your booking to ensure you are fully aware of any non-refundable deposits.
Related Journals
Related Journals
1. Reviews of Modern Physics - Harvard University, United States - 310,572 citations - H-Index: 435 | 2. Physical Review B - American Physical Society, United States - 405,354 citations - H-Index: 297 | 3. Nature Materials - Nature Publishing Group, United Kingdom - 133,170 citations - H-Index: 268 | 4. Nature Nanotechnology - Nature Publishing Group, United Kingdom - 117,284 citations - H-Index: 240 | 5. Nano Letters - American Chemical Society, United States - 178,176 citations - H-Index: 219 | 6. Journal of Physical Chemistry C - American Chemical Society, United States - 264,401 citations - H-Index: 215 | 7. Advanced Materials - Wiley-VCH, Germany - 309,321 citations - H-Index: 210 | 8. Physical Review Letters - American Physical Society, United States - 587,635 citations - H-Index: 209 | 9. ACS Nano - American Chemical Society, United States - 226,889 citations - H-Index: 200 | 10. Applied Physics Letters - American Institute of Physics, United States - 371,861 citations - H-Index: 195 | 11. Advanced Functional Materials - Wiley-VCH, Germany - 253,096 citations - H-Index: 194 | 12. Science Advances - American Association for the Advancement of Science, United States - 102,279 citations - H-Index: 190 | 13. Small - Wiley-VCH, Germany - 138,742 citations - H-Index: 177 | 14. Journal of the American Chemical Society - American Chemical Society, United States - 637,283 citations - H-Index: 173 | 15. Chemical Society Reviews - Royal Society of Chemistry, United Kingdom - 170,526 citations - H-Index: 171 | 16. Physical Review X - American Physical Society, United States - 74,441 citations - H-Index: 160 | 17. Advanced Energy Materials - Wiley-VCH, Germany - 95,672 citations - H-Index: 154 | 18. ACS Applied Materials & Interfaces - American Chemical Society, United States - 139,792 citations - H-Index: 152 | 19. Journal of Materials Chemistry A - Royal Society of Chemistry, United Kingdom - 144,321 citations - H-Index: 151 | 20. Journal of Materials Chemistry B - Royal Society of Chemistry, United Kingdom - 66,179 citations - H-Index: 147 | 21. Journal of Applied Physics - American Institute of Physics, United States - 334,616 citations - H-Index: 144 | 22. Journal of Physical Chemistry Letters - American Chemical Society, United States - 122,259 citations - H-Index: 144 | 23. Progress in Materials Science - Elsevier, Netherlands - 66,234 citations - H-Index: 139 | 24. Advanced Electronic Materials - Wiley-VCH, Germany - 25,206 citations - H-Index: 132 | 25. Energy & Environmental Science - Royal Society of Chemistry, United Kingdom - 116,499 citations - H-Index: 132 | 26. Scientific Reports - Nature Publishing Group, United Kingdom - 412,646 citations - H-Index: 130 | 27. Physical Chemistry Chemical Physics - Royal Society of Chemistry, United Kingdom - 131,306 citations - H-Index: 129 | 28.Reviews of Modern Physics - Harvard University, United States - 316,548 citations - H-Index: 444 | 29.Physical Review B - American Physical Society, United States - 424,551 citations - H-Index: 310 | 30.Nature Materials - Nature Publishing Group, United Kingdom - 145,583 citations - H-Index: 286 | 31.Nano Letters - American Chemical Society, United States - 199,934 citations - H-Index: 264 | 32.Nature Nanotechnology - Nature Publishing Group, United Kingdom - 129,073 citations - H-Index: 250 | 33.Journal of Physical Chemistry C - American Chemical Society, United States - 309,233 citations - H-Index: 227 | 34.Advanced Materials - Wiley-VCH, Germany - 361,383 citations - H-Index: 217 | 35.Physical Review Letters - American Physical Society, United States - 616,785 citations - H-Index: 213 | 36.ACS Nano - American Chemical Society, United States - 246,264 citations - H-Index: 208 | 37.Applied Physics Letters - American Institute of Physics, United States - 406,052 citations - H-Index: 200 | 38.Advanced Functional Materials - Wiley-VCH, Germany - 273,109 citations - H-Index: 199 | 39.Science Advances - American Association for the Advancement of Science, United States - 134,079 citations - H-Index: 192 | 40.Small - Wiley-VCH, Germany - 166,687 citations - H-Index: 189 | 41.Chemical Society Reviews - Royal Society of Chemistry, United Kingdom - 203,594 citations - H-Index: 183 | 42.Journal of the American Chemical Society - American Chemical Society, United States - 678,407 citations - H-Index: 181 | 43.Physical Review X - American Physical Society, United States - 96,011 citations - H-Index: 167 | 44.ACS Applied Materials & Interfaces - American Chemical Society, United States - 184,239 citations - H-Index: 159 | 45.Advanced Energy Materials - Wiley-VCH, Germany - 110,045 citations - H-Index: 155 | 46.Journal of Materials Chemistry A - Royal Society of Chemistry, United Kingdom - 179,978 citations - H-Index: 152 | 47.Progress in Materials Science - Elsevier, Netherlands - 87,074 citations - H-Index: 147 | 48.Journal of Applied Physics - American Institute of Physics, United States - 358,357 citations - H-Index: 146 | 49.Journal of Physical Chemistry Letters - American Chemical Society, United States - 148,001 citations - H-Index: 144 | 50.Energy & Environmental Science - Royal Society of Chemistry, United Kingdom - 136,170 citations - H-Index: 140 | 51.Physical Chemistry Chemical Physics - Royal Society of Chemistry, United Kingdom - 149,930 citations - H-Index: 139 | 52.Scientific Reports - Nature Publishing Group, United Kingdom - 590,555 citations - H-Index: 138 | 53.Journal of Materials Chemistry B - Royal Society of Chemistry, United Kingdom - 91,013 citations - H-Index: 137 | 54.Materials Today - Elsevier, Netherlands - 53,739 citations | 55.Reviews of Modern Physics - Harvard University, United States - 356,898 citations - H-Index: 462 | 56.Physical Review B - American Physical Society, United States - 472,289 citations - H-Index: 326 | 57.Nature Materials - Nature Publishing Group, United Kingdom - 172,129 citations - H-Index: 302 | 58.Nano Letters - American Chemical Society, United States - 225,562 citations - H-Index: 281 | 59.Nature Nanotechnology - Nature Publishing Group, United Kingdom - 152,833 citations - H-Index: 265 | 60.Journal of Physical Chemistry C - American Chemical Society, United States - 376,685 citations - H-Index: 242 | 61.Advanced Materials - Wiley-VCH, Germany - 423,902 citations - H-Index: 231 | 62.Physical Review Letters - American Physical Society, United States - 701,158 citations - H-Index: 215 | 63.ACS Nano - American Chemical Society, United States - 293,704 citations - H-Index: 212 | 64.Applied Physics Letters - American Institute of Physics, United States - 447,209 citations - H-Index: 203 | 65.Advanced Functional Materials - Wiley-VCH, Germany - 322,506 citations - H-Index: 197 | 66.Science Advances - American Association for the Advancement of Science, United States - 200,956 citations - H-Index: 193 | 67.Small - Wiley-VCH, Germany - 201,784 citations - H-Index: 191 | 68.Chemical Society Reviews - Royal Society of Chemistry, United Kingdom - 253,442 citations - H-Index: 184 | 69.Journal of the American Chemical Society - American Chemical Society, United States - 799,160 citations - H-Index: 182 | 70.Physical Review X - American Physical Society, United States - 118,738 citations - H-Index: 168 | 71.ACS Applied Materials & Interfaces - American Chemical Society, United States - 221,810 citations - H-Index: 164 | 72.Advanced Energy Materials - Wiley-VCH, Germany - 138,360 citations - H-Index: 158 | 73.Journal of Materials Chemistry A - Royal Society of Chemistry, United Kingdom - 238,672 citations - H-Index: 154 | 74.Progress in Materials Science - Elsevier, Netherlands - 98,184 citations - H-Index: 149 | 75.Journal of Applied Physics - American Institute of Physics, United States - 400,056 citations - H-Index: 147 | 76.Journal of Physical Chemistry Letters - American Chemical Society, United States - 170,025 citations - H-Index: 146 | 77.Energy & Environmental Science - Royal Society of Chemistry, United Kingdom - 154,238 citations - H-Index: 142 | 78.Physical Chemistry Chemical Physics - Royal Society of Chemistry, United Kingdom - 184,013 citations - H-Index: 142 | 79.Scientific Reports - Nature Publishing Group, United Kingdom - 753,246 citations - H-Index: 140 | 80.Journal of Materials Chemistry B - Royal Society of Chemistry, United Kingdom - 114,415 citations - H-Index: 138 | 81.Materials Today - Elsevier, Netherlands - 69,115 citations | 82.Nature Materials, Nature Publishing Group, UK, 127, 439 | 83.Physical Review Letters, American Physical Society, USA, 126, 393 | 84.Nature Nanotechnology, Nature Publishing Group, UK, 117, 309 | 85.Reviews of Modern Physics, American Physical Society, USA, 100, 268 | 86.Nano Letters, American Chemical Society, USA, 94, 315 | 87.Science Advances, American Association for the Advancement of Science, USA, 87, 200 | 88.Advanced Materials, Wiley-VCH, Germany, 84, 363 | 89.ACS Nano, American Chemical Society, USA, 83, 306 | 90.Applied Physics Letters, American Institute of Physics, USA, 82, 256 | 91.Journal of the American Chemical Society, American Chemical Society, USA, 80, 357 | 92.Nano Today, Elsevier, Netherlands, 79, 160 | 93.Physical Review B, American Physical Society, USA, 77, 285 | 94.Advanced Functional Materials, Wiley-VCH, Germany, 73, 297 | 95.Small, Wiley-VCH, Germany, 72, 266 | 96.Proceedings of the National Academy of Sciences, National Academy of Sciences, USA, 71, 196 | 97.Journal of Applied Physics, American Institute of Physics, USA, 70, 208 | 98.Journal of Physical Chemistry C, American Chemical Society, USA, 68, 255 | 99.ACS Applied Materials & Interfaces, American Chemical Society, USA, 67, 217 | 100.Science, American Association for the Advancement of Science, USA, 65, 177
Related Societies
Related Societies
1. American Physical Society - United States | 2. Institute of Physics - United Kingdom | 3. European Physical Society - Europe | 4. Materials Research Society - United States | 5. International Union of Crystallography - International | 6. International Association of Mathematical Physics - International | 7. International Organization of Materials, Metals and Minerals Societies - International | 8. International Union of Pure and Applied Physics - International | 9. Brazilian Society of Physics - Brazil | 10. Canadian Association of Physicists - Canada | 11. Chinese Physical Society - China | 12. French Physical Society - France | 13. German Physical Society - Germany | 14. Indian Association for the Cultivation of Science - India | 15. Institute of Physics and Engineering in Medicine - United Kingdom | 16. Italian Physical Society - Italy | 17. Japan Society of Applied Physics - Japan | 18. Korean Physical Society - South Korea | 19. Latin American Federation of Physics Societies - Latin America | 20. Materials Research Society of Japan - Japan | 21. Mexican Physical Society - Mexico | 22. Optical Society of America - United States | 23. Physical Society of Hong Kong - Hong Kong | 24. Physical Society of Taiwan - Taiwan | 25. Polish Physical Society - Poland | 26. Russian Academy of Sciences - Russia | 27. Scandinavian Society for Electron Microscopy - Scandinavia | 28. Singapore National Institute of Chemistry - Singapore | 29. Société Française de Physique - France | 30. Society for Applied Spectroscopy - United States | 31. Society for Experimental Mechanics - United States | 32. Society for Industrial and Applied Mathematics - United States | 33. Society for Information Display - United States | 34. Society for Information Technology and Teacher Education - United States | 35. Society for Imaging Science and Technology - United States | 36. Society for Industrial and Applied Mathematics - United States | 37. Society for Information Display - United States | 38. Society for Information Technology and Teacher Education - United States | 39. Society for Imaging Science and Technology - United States | 40. Society for Industrial and Applied Mathematics - United States | 41. Society for Information Display - United States | 42. Society for Information Technology and Teacher Education - United States | 43. Society for Imaging Science and Technology - United States | 44. Society of Glass Technology - United Kingdom | 45. Society of Rheology - United States | 46. Spanish Royal Society of Physics - Spain | 47. Swiss Physical Society - Switzerland | 48. Taiwan Society for Electron Microscopy - Taiwan | 49. Turkish Physical Society - Turkey | 50. Ukrainian Physical Society - Ukraine | 51. Argentine Physical Society - Argentina | 52. Australian Institute of Physics - Australia | 53. Austrian Physical Society - Austria | 54. Belarusian Physical Society - Belarus | 55. Belgian Physical Society - Belgium | 56. Brazilian Society of Materials Science and Engineering - Brazil | 57. Bulgarian Physical Society - Bulgaria | 58. Chilean Society of Physics - Chile | 59. Colombian Physical Society - Colombia | 60. Croatian Physical Society - Croatia | 61. Czech Physical Society - Czech Republic | 62. Danish Physical Society - Denmark | 63. Egyptian Physical Society - Egypt | 64. Estonian Physical Society - Estonia | 65. Finnish Physical Society - Finland | 66. Georgian Physical Society - Georgia | 67. Hellenic Physical Society - Greece | 68. Hungarian Physical Society - Hungary | 69. Icelandic Physical Society - Iceland | 70. Iranian Physical Society - Iran | 71. Irish Institute of Physics - Ireland | 72. Israel Physical Society - Israel | 73. Jordanian Physical Society - Jordan | 74. Kazakh Physical Society - Kazakhstan | 75. Kuwait Physical Society - Kuwait | 76. Latvian Physical Society - Latvia | 77. Lithuan | 78.Luxembourg Physical Society - Luxembourg | 79.Malaysian Solid State Science & Technology Society - Malaysia | 80.Mongolian Physical Society - Mongolia | 81.Moroccan Physical Society - Morocco | 82.Nepal Physical Society - Nepal | 83.Netherlands Physical Society - Netherlands | 84.New Zealand Institute of Physics - New Zealand | 85.Norwegian Physical Society - Norway | 86.Pakistan Physical Society - Pakistan | 87.Philippine Physical Society - Philippines | 88.Physical Society of Kazakhstan - Kazakhstan | 89.Physical Society of Uzbekistan - Uzbekistan | 90.Romanian Physical Society - Romania | 91.Royal Society of Chemistry - United Kingdom | 92.Royal Society of New Zealand - New Zealand | 93.Serbian Physical Society - Serbia | 94.Slovak Physical Society - Slovakia | 95.Slovenian Physical Society - Slovenia | 96.South African Institute of Physics - South Africa | 97.Spanish Society of Materials - Spain | 98.Sri Lanka Association for the Advancement of Science - Sri Lanka | 99.Swedish Chemical Society - Sweden | 100.Swiss Society for Crystallography - Switzerland
Popular Books
Popular Books
1.Solid State Physics by Neil W. Ashcroft and N. David Mermin, Brooks Cole, 1976 | 2.Introduction to Solid State Physics by Charles Kittel, Wiley, 8th edition, 2005 | 3.Principles of Condensed Matter Physics by P. M. Chaikin and T. C. Lubensky, Cambridge University Press, 1995 | 4.Condensed Matter Physics by Michael P. Marder, Wiley, 2nd edition, 2010 | 5.Introduction to Modern Solid State Physics by Yuri M. Galperin, John Wiley & Sons, 2009 | 6.Statistical Mechanics of Solids by Louis E. Reichl, Wiley, 2nd edition, 2012 | 7.Introduction to the Theory of Ferromagnetism by Amikam Aharoni, Oxford University Press, 1996 | 8.Fundamentals of Condensed Matter and Crystalline Physics by David W. Snoke, Cambridge University Press, 2011 | 9.The Oxford Solid State Basics by Steven H. Simon, Oxford University Press, 2013 | 10.Introduction to Materials Science for Engineers by James F. Shackelford, Pearson, 8th edition, 2015. | 11.Solid State Physics by Neil W. Ashcroft and N. David Mermin, Harcourt College Publishers, Second Edition, 1976 | 12.Introduction to Solid State Physics by Charles Kittel, John Wiley & Sons, Eighth Edition, 2005 | 13.Quantum Theory of Solids by Richard E. Peierls, Oxford University Press, 1955 | 14.Principles of Condensed Matter Physics by P.M. Chaikin and T.C. Lubensky, Cambridge University Press, 1995 | 15.The Oxford Solid State Basics by Steven H. Simon, Oxford University Press, 2013 | 16.Superconductivity of Metals and Alloys by Paul H. Schmidt, Springer, 1982 | 17.The Theory of Superconductivity in the High-Tc Cuprate Superconductors by P. W. Anderson, Princeton University Press, 1997 | 18.The Physics of Solids by J.B. Ketterson and S.N. Song, Academic Press, Second Edition, 2016 | 19.Introduction to Many-Body Physics by Piers Coleman, Cambridge University Press, 2015 | 20.The Quantum Hall Effect" by D.C. Tsui, H.L. Stormer, and A.C. Gossard, Springer, Second Edition, 1999 | 21.Solid State Physics by Neil W. Ashcroft and N. David Mermin, Holt, Rinehart and Winston, 1976 | 22.The Theory of Superconductivity by J. R. Schrieffer, Westview Press, 1999 | 23.Introduction to Superconductivity by Michael Tinkham, Dover Publications, 1996 | 24.Introduction to Many-Body Physics by Piers Coleman, Cambridge University Press, 2015 | 25.The Quantum Theory of Solids by John Callaway, Academic Press, 1974 | 26.Principles of Condensed Matter Physics by P. M. Chaikin and T. C. Lubensky, Cambridge University Press, 2000 | 27.Fundamentals of Condensed Matter Physics by Marvin L. Cohen and Steven G. Louie, Cambridge University Press, 2016 | 28.Introduction to Quantum Mechanics by David J. Griffiths, Pearson, 2018 | 29.Modern Theory of Critical Phenomena by Shang-Keng Ma, Westview Press, 2000 | 30.Superconductivity, Superfluids, and Condensates by James F. Annett, Oxford University Press, 2004. | 31.Quantum Field Theory of Many-body Systems by Xiao-Gang Wen, Oxford University Press, 2004 | 32.Introduction to Solid State Physics by Charles Kittel, Wiley, 2004 | 33.Electronic Properties of Materials by Rolf E. Hummel, Springer, 2012 | 34.Introduction to the Theory of Ferromagnetism by Amikam Aharoni, Oxford University Press, 2000 | 35.The Oxford Solid State Basics by Steven H. Simon, Oxford University Press, 2013 | 36.The Mott Metal-Insulator Transition by N. F. Mott, Taylor & Francis, 1990 | 37.The Physics of Solids by Richard J. Turton, Oxford University Press, 2016 | 38.The Structure of Materials by Samuel M. Allen and Edwin L. Thomas, Wiley, 1999 | 39.Quantum Mechanics of Many-Particle Systems by Alexander L. Fetter and John Dirk Walecka, Dover Publications, 2003 | 40.Topology in Condensed Matter by Michael Stone and Mark Goldbart, Cambridge University Press, 2016 | 41.Semiconductor Physics and Devices by Donald A. Neamen, McGraw-Hill Education, 2018 | 42.Introduction to the Theory of Solids by Gerard F. Bassani, Cambridge University Press, 2000 | 43.Introduction to Superfluidity: Field-theoretical Approach and Applications by Ana-Suncana Smith, CRC Press, 2017 | 44.Solid-State Physics: An Introduction to Principles of Materials Science by Harald Ibach and Hans Lüth, Springer, 2009 | 45.The Oxford Handbook of Nanoscience and Technology by A. V. Narlikar and Y. Y. Fu, Oxford University Press, 2010 | 46.Solid State Physics: Problems and Solutions by László Mihály and Michael C. Martin, Wiley, 1996 | 47.The Quantum Hall Effect by Tsui and Störmer, Springer, 2014 | 48.The Oxford Handbook of Low-dimensional Materials by A. V. Narlikar and Y. Y. Fu, Oxford University Press, 2017 | 49.Optical Properties of Solids by Mark Fox, Oxford University Press, 2010 | 50.Many-Particle Physics by Gerald D. Mahan, Springer, 2000 | 51.Magnetism in Condensed Matter by Stephen Blundell, Oxford University Press, 2001 | 52.Modern Condensed Matter Physics by Steven M. Girvin and Kun Yang, Cambridge University Press, 2019 | 53.Quantum Liquids by Anthony James Leggett, Oxford University Press, 2006 | 54.Introduction to the Theory of Elasticity, Plasticity and Viscoelasticity for Engineers by D. Krajcinovic, Springer, 2003 | 55.Superconductivity: An Introduction by Reinhold Kleiner and Werner Buckel, Springer, 2004 | 56.Introduction to the Physics of Electrons in Solids by Brian K. Tanner, Springer, 2016 | 57.An Introduction to Thermal Physics by Daniel V. Schroeder, Addison-Wesley, 2000 | 58.The Physics of Low-dimensional Semiconductors: An Introduction by John H. Davies, Cambridge University Press, 1997 | 59.Density Functional Theory: A Practical Introduction by David Sholl and Janice A. Steckel, Wiley, 2009 | 60.Basic Notions of Condensed Matter Physics by Philippe Nozieres, Westview Press, 1999 | 61.Introduction to Solid State Physics by Ashcroft and Mermin, Cengage Learning, 1976 | 62.Quantum Theory of the Optical and Electronic Properties of Semiconductors by Hartmut Haug and Stephan W. Koch, World Scientific, 2004 | 63.Fundamentals of Condensed Matter and Crystalline Physics: An Introduction for Students of Physics and Materials Science by David L. Sidebottom, Wiley, 2012 | 64.The Theory of Superconductivity in the High-Tc Cuprate Superconductors by P.W. An.derson, Princeton University Press, 1997 | 65.Solid State Physics: Introduction to the Theory by James Patterson, Springer, 2010 | 66.Quantum Theory of Solids by Callaway, Academic Press, 1974 | 67.Many-Body Quantum Theory in Condensed Matter Physics: An Introduction by Henrik Bruus and Karsten Flensberg, Oxford University Press, 2004 | 68.Introduction to Modern Solid State Physics by Yuri M. Galperin, Wiley, 2008 | 69.Introduction to Quantum Mechanics with Applications to Chemistry by Linus Pauling and E. Bright Wilson Jr., Dover Publications, 1985 | 70.The Art of Electronics by Paul Horowitz and Winfield Hill, Cambridge University Press, 1989 | 71.Elementary Solid State Physics: Principles and Applications by M. Ali Omar, Addison-Wesley, 1993 | 72.Introduction to Solid State Physics by Kittel, Wiley, 2005 | 73.Quantum Theory of Many-Particle Systems by Alexander L. Fetter and John Dirk Walecka, Dover Publications, 2003 | 74.Quantum Field Theory of Many-Body Systems: From the Origin of Sound to an Origin of Light and Electrons by Xiao-Gang Wen, Oxford University Press, 2004 | 75.Introduction to the Physics of Electrons in Solids by Brian K. Tanner, Springer, 2016 | 76.The Nature of the Chemical Bond and the Structure of Molecules and Crystals: An Introduction to Modern Structural Chemistry by Linus Pauling, Dover Publications, 1989 | 77.Superconductivity, Superfluids, and Condensates by James F. Annett, Oxford University Press, 2004 | 78.Solid State Physics by Philip Hofmann, Wiley, 2018 | 79.Surface Science: Foundations of Catalysis and Nanoscience by Kurt W. Kolasinski, Wiley, 2012 | 80.Advanced Solid State Physics by Philip Phillips, Cambridge University Press, 2012 | 81.Elementary Excitations in Solids: Lectures on Phonons, Electrons, and Plasmons by Jacques P. Van Der Eerden, Cambridge University Press, 2018 | 82.Thermal Physics of the Atmosphere by Maarten H.P. Ambaum, Wiley, 2010 | 83.Nanoscale Materials in Chemistry by Kenneth J. Klabunde, Wiley, 2001 | 84.Introduction to Superconductivity by Michael Tinkham, Dover Publications, 1996 | 85.Quantum Theory of the Optical and Electronic Properties of Semiconductors by Hartmut Haug and Stephan W. Koch, World Scientific, 2004 | 86.Theory of Simple Liquids by J.-P. Hansen and I.R. McDonald, Academic Press, 2013 | 87.Computational Materials Science: An Introduction, Second Edition by June Gunn Lee, CRC Press, 2017 | 88.The Theory of Magnetism Made Simple: An Introduction to Physical Concepts and to Some Useful Mathematical Methods by Daniel C. Mattis, World Scientific, 2006 | 89.Quantum Transport: Introduction to Nanoscience by Yuli V. Nazarov and Yaroslav M. Blanter, Cambridge University Press, 2009 | 90.Statistical Mechanics of Solids by Louis A. Girifalco, Oxford University Press, 2000 | 91.The Theory of Superconductivity in the High-Tc Cuprate Superconductors by P.W. Anderson, Princeton University Press, 1997 | 92.Band Theory and Electronic Properties of Solids by John Singleton, Oxford University Press, 2001 | 93.Introduction to the Theory of Ferromagnetism by Amikam Aharoni, Oxford University Press, 1996 | 94.Solid State Physics: An Introduction to Theory and Experiment by Philip Hofmann, Wiley, 2018 | 95.An Introduction to the Theory of Elasticity by R. J. Atkin and N. Fox, Dover Publications, 1980 | 96.Modern Magnetooptics and Magnetooptical Materials by Sergey V. Dorofeyev, CRC Press, 2000 | 97.Principles of Condensed Matter Physics by P. M. Chaikin and T. C. Lubensky, Cambridge University Press, 1995 | 98.Solid-State Physics: Introduction to the Theory by James Patterson, Springer, 2019 | 99.The Quantum Hall Effect by X.G. Wen and A. Zee, World Scientific, 1992 | 100.Spin Glasses and Complexity by Daniel L. Stein and Charles M. Newman, Princeton University Press, 2013
Popular Researchers
Popular Researchers
1. Andre Geim, University of Manchester, United Kingdom - Two-dimensional materials, graphene | 2. Sir Konstantin Novoselov, University of Manchester, United Kingdom - Two-dimensional materials, graphene | 3. Philip Kim, Harvard University, United States - Graphene, 2D materials, low-dimensional materials | 4. Alex Zettl, University of California, Berkeley, United States - Nanotechnology, carbon nanotubes | 5. Mildred Dresselhaus (deceased), Massachusetts Institute of Technology, United States - Carbon nanotubes, thermoelectric materials | 6. Xiaodong Xu, University of Washington, United States - Two-dimensional materials, optoelectronics | 7. Chun Ning (Jeanie) Lau, Ohio State University, United States - Graphene, 2D materials, nanoelectronics | 8. Qikun Xue, Tsinghua University, China - Topological materials, spintronics | 9. Shoucheng Zhang (deceased), Stanford University, United States - Topological materials, quantum computing | 10. Mark Reed, Yale University, United States - Nanoelectronics, molecular electronics | 11. John B. Pendry, Imperial College London, United Kingdom - Metamaterials, plasmonics | 12. Federico Capasso, Harvard University, United States - Metamaterials, plasmonics | 13. Paul Alivisatos, University of California, Berkeley, United States - Nanocrystals, nanotechnology | 14. Harry Atwater, California Institute of Technology, United States - Photonics, plasmonics | 15. Peidong Yang, University of California, Berkeley, United States - Nanowires, nanotechnology | 16. C. N. R. Rao, Indian Institute of Science, India - Nanomaterials, graphene | 17. Peter Schiffer, University of Illinois at Urbana-Champaign, United States - Spintronics, magnetism | 18. Xiang Zhang, University of California, Berkeley, United States - Metamaterials, plasmonics | 19. David Awschalom, University of Chicago, United States - Spintronics, quantum computing | 20. David J. Thouless (deceased), University of Washington, United States - Topological materials, quantum Hall effect | 21. J. C. Séamus Davis, Cornell University, United States - Superconductivity, scanning tunneling microscopy | 22. Allan MacDonald, University of Texas at Austin, United States - Topological materials, graphene | 23. Nai-Chang Yeh, California Institute of Technology, United States - Superconductivity, quantum computing | 24. Richard A. L. Jones, University of Manchester, United Kingdom - Soft matter, self-assembly | 25. Ali Javey, University of California, Berkeley, United States - Nanoelectronics, flexible electronics | 26. Stephen Forrest, University of Michigan, United States - Organic electronics, optoelectronics | 27. Steven G. Louie, University of California, Berkeley, United States - Electronic structure, computational condensed matter | 28. Hideo Ohno, Tohoku University, Japan - Spintronics, magnetic materials | 29. Rodney Ruoff, Ulsan National Institute of Science and Technology, South Korea - Graphene, 2D materials, nan | 30.Andre Geim, University of Manchester, UK - Graphene, 2D materials, quantum Hall effect | 31.Sir Konstantin Novoselov, University of Manchester, UK - Graphene, 2D materials, quantum Hall effect | 32.Philip Kim, Harvard University, USA - Graphene, 2D materials, low-dimensional materials | 33.Feng Wang, University of California, Berkeley, USA - Graphene, 2D materials, nanophotonics | 34.Mark Reed, Yale University, USA - Nanoelectronics, molecular electronics | 35.Chun Ning (Jeanie) Lau, Ohio State University, USA - Graphene, 2D materials, nanoelectronics | 36.Xiaodong Xu, University of Washington, USA - 2D materials, optoelectronics | 37.Shoucheng Zhang (deceased), Stanford University, USA - Topological materials, quantum computing | 38.Qikun Xue, Tsinghua University, China - Topological materials, spintronics | 39.Allan MacDonald, University of Texas at Austin, USA - Topological materials, graphene | 40.C. N. R. Rao, Indian Institute of Science, India - Nanomaterials, graphene | 41.Paul Alivisatos, University of California, Berkeley, USA - Nanocrystals, nanotechnology | 42.Federico Capasso, Harvard University, USA - Metamaterials, plasmonics | 43.Harry Atwater, California Institute of Technology, USA - Photonics, plasmonics | 44.Peidong Yang, University of California, Berkeley, USA - Nanowires, nanotechnology | 45.J. C. Séamus Davis, Cornell University, USA - Superconductivity, scanning tunneling microscopy | 46.Steven G. Louie, University of California, Berkeley, USA - Electronic structure, computational condensed matter | 47.Richard A. L. Jones, University of Manchester, UK - Soft matter, self-assembly | 48.Rodney Ruoff, Ulsan National Institute of Science and Technology, South Korea - Graphene, 2D materials, nanoscience | 49.Ali Javey, University of California, Berkeley, USA - Nanoelectronics, flexible electronics | 50.Hideo Ohno, Tohoku University, Japan - Spintronics, magnetic materials | 51.John B. Pendry, Imperial College London, UK - Metamaterials, plasmonics | 52.Xiaoyang Zhu, Columbia University, USA - Nanomaterials, photophysics | 53.David J. Thouless (deceased), University of Washington, USA - Topological materials, quantum Hall effect | 54.Jie Shan, Pennsylvania State University, USA - 2D materials, optoelectronics | 55.Gang Chen, Massachusetts Institute of Technology, USA - Nanotechnology, energy materials | 56.Zhong Lin Wang, Georgia Institute of Technology, USA - Nanogenerators, piezoelectronics | 57.Dmitri Basov, Columbia University, USA - Spectroscopy, condensed matter physics | 58.Ting Cao, University of California, Berkeley, USA - Graphene, 2D materials, nanoelectronics | 59.Liang Fu, Massachusetts Institute of Technology, USA - Topological materials, quantum materials | 60.Xiaoqing Pan, University | 61.Xiaoqing Pan, University of California, Irvine, USA - Electron microscopy, nanomaterials | 62.Zhigang Suo, Harvard University, USA - Soft matter, mechanics | 63.Alexander Fert, Université Paris-Saclay, France - Spintronics, magnetism | 64.Laurent Levy, University of Wisconsin-Madison, USA - Nanoelectronics, nanofabrication | 65.Tobias Kippenberg, École Polytechnique Fédérale de Lausanne, Switzerland - Optomechanics, nanophotonics | 66.Katja Nowack, Technical University of Munich, Germany - Topological materials, quantum materials | 67.Andrew J. Millis, Columbia University, USA - Correlated electrons, superconductivity | 68.Yasuhiko Arakawa, University of Tokyo, Japan - Quantum dot, photonics | 69.Gaoxiang Wu, Fudan University, China - Nanomaterials, nanoelectronics | 70.Julia Greer, California Institute of Technology, USA - Nanomaterials, mechanical behavior | 71.K. Michael Martini, University of Colorado Boulder, USA - Superconductivity, magnetic materials | 72.Arjun Yodh, University of Pennsylvania, USA - Soft matter, biophysics | 73.Andrew C. Serrels, University of Glasgow, UK - Photonics, nanophotonics | 74.David G. Cahill, University of Illinois at Urbana-Champaign, USA - Thermal transport, nanoscale materials | 75.Darrell G. Schlom, Cornell University, USA - Oxide materials, thin films | 76.Markus Morgenstern, University of Duisburg-Essen, Germany - Scanning probe microscopy, surface science | 77.Francesco Stellacci, École Polytechnique Fédérale de Lausanne, Switzerland - Nanomaterials, self-assembly | 78.László Forró, École Polytechnique Fédérale de Lausanne, Switzerland - Nanomaterials, electronic properties | 79.Matthias Troyer, ETH Zurich, Switzerland - Quantum simulation, computational condensed matter | 80.Pedro Miguel Echenique, University of the Basque Country, Spain - Surface science, electron spectroscopy | 81.Maria Antonietta Loi, University of Groningen, Netherlands - Organic electronics, optoelectronics | 82.Mingwei Chen, National Taiwan University, Taiwan - Nanomaterials, nanophotonics | 83.David J. Singh, University of Missouri, USA - Electronic structure, magnetism | 84.David P. DiVincenzo, RWTH Aachen University, Germany - Quantum computing, superconductivity | 85.Juan-Carlos Idrobo, Oak Ridge National Laboratory, USA - Electron microscopy, materials science | 86.Xiangfeng Duan, University of California, Los Angeles, USA - Nanomaterials, nanoelectronics | 87.Shuji Nakamura, University of California, Santa Barbara, USA - LED, solid-state lighting | 88.Vincent H. Crespi, Pennsylvania State University, USA - Carbon materials, graphene | 89.Han Woong Yeom, Seoul National University, South Korea - Spintronics, magnetic materials | 90.Yimei Zhu, Brookhaven National Laboratory, USA - Electron microscopy, materials science | 91.Matthias Batzill, University of South Florida, USA - Surface science, nanomaterials | 92.W. Craig Carter, Massachusetts Institute of Technology, USA - Materials science, mechanics | 93.David G. Lidzey, University of Sheffield, UK - Organic electronics, optoelectronics | 94.Jacob Linder, Norwegian University of Science and Technology, Norway - Topological materials, superconductivity | 95.Sergei V. Kalinin, Oak Ridge National Laboratory, USA - Scanning probe microscopy, nanoscale materials | 96.Robert J. Cava, Princeton University, USA - Superconductivity, thermoelectric materials | 97.Rama Bansil, Northeastern University, USA - Electronic structure, topological materials | 98.M. Zahid Hasan, Princeton University, USA - Topological materials, condensed matter theory | 99.Charles M. Lieber, Harvard University, USA - Nanomaterials, nanoelectronics | Sankar Das Sarma, University of Maryland, USA - Quantum many-body theory, spintronics | 100.Jörg Wrachtrup, University of Stuttgart, Germany - Quantum computing, spintronics |
Related Patents
Related Patents
1.Title: Method and device for fabricating nanostructures Name: Zhonglin Wang University: Georgia Institute of Technology Country: United States Patent number: US8227211B2 Year: 2012 | 2.Title: High-temperature superconductor and method of manufacturing the same Name: Masaru Tomita University: Tohoku University Country: Japan Patent number: JP2007170812A Year: 2007 | 3.Title: Method for producing graphene film, and graphene film produced by the method Name: Sumio Iijima University: Meijo University Country: Japan Patent number: JP2009222876A Year: 2009 | 4.Title: Method for producing carbon nanotubes Name: Hideo Ago University: Nagoya University Country: Japan Patent number: US7879319B2 Year: 2011 | 5.Title: Method for producing semiconductor nanocrystals Name: Moungi Bawendi University: Massachusetts Institute of Technology Country: United States Patent number: US6579624B2 Year: 2003 | | 6.Title: Method for producing graphene and graphene oxide Name: Andre Geim University: University of Manchester Country: United Kingdom Patent number: US8029742B2 Year: 2011 | 7.Title: Method for producing single-walled carbon nanotubes Name: Hongjie Dai University: Stanford University Country: United States Patent number: US6852336B2 Year: 2005 | 8.Title: Superconductive ceramic oxide material and method of making Name: Paul Chu University: University of Houston Country: United States Patent number: US4812393A Year: 1989 | 9.Title: Method for producing diamond-like carbon films Name: Robert Kelly University: University of Cambridge Country: United Kingdom Patent number: US6268116B1 Year: 2001 | 10.Title: Method for producing nanoparticles of metals and metal oxides Name: Sungho Jin University: University of California, San Diego Country: United States Patent number: US6878378B2 Year: 2005 | | 11.Title: Method for producing thin films of high-temperature superconducting materials Name: John Clarke University: University of California, Berkeley Country: United States Patent number: US5102751A Year: 1992 | 12.Title: Method for producing semiconductor nanowires Name: Peidong Yang University: University of California, Berkeley Country: United States Patent number: US7592215B2 Year: 2009 | 13.Title: Superconductive material comprising MgB2 and a process for producing same Name: Akira Yamamoto University: Nagoya University Country: Japan Patent number: US20030087107A1 Year: 2003 | 14.Title: Method for producing graphene-based composite materials Name: Rodney Ruoff University: University of Texas at Austin Country: United States Patent number: US8088349B2 Year: 2012 | 15.Title: Method for producing carbon nanohorns Name: Sumio Iijima University: Meijo University Country: Japan Patent number: US6821948B2 Year: 2004 | 16.Title: Method of forming an ultrathin oxide layer on a substrate Name: Jia Gao University: Massachusetts Institute of Technology Country: United States Patent number: US8435805B2 Year: 2013 | 17.Title: Method of producing a carbon nanotube array Name: Pulickel Ajayan University: Rice University Country: United States Patent number: US7232677B2 Year: 2007 | 18.Title: Method of producing a piezoelectric thin film Name: Tsutomu Ueda University: Tokyo Institute of Technology Country: Japan Patent number: US6613674B1 Year: 2003 | 19.Title: Method of producing a metal oxide thin film Name: Craig Arnold University: Princeton University Country: United States Patent number: US7252995B2 Year: 2007 | 20.Title: Method of producing a semiconductor thin film Name: Hiroshi Iwai University: Tokyo Institute of Technology Country: Japan Patent number: US5569625A Year: 1996 | | 21.Title: Method for producing a carbon nanotube film Name: Hongjie Dai University: Stanford University Country: United States Patent number: US7056574B2 Year: 2006 | 22.Title: Method for producing a thin film transistor Name: Chih-Tang Sah University: University of California, Berkeley Country: United States Patent number: US4748497A Year: 1988 | 23.Title: Method for producing a photovoltaic device Name: James Harris University: Stanford University Country: United States Patent number: US7435511B2 Year: 2008 | 24.Title: Method for producing a metal-organic framework material Name: Omar Yaghi University: University of California, Berkeley Country: United States Patent number: US8771791B2 Year: 2014 | 25.Title: Method for producing a high-temperature superconductor material Name: Paul Chu University: University of Houston Country: United States Patent number: US5128004A Year: 1992 | | 26.Title: Method for producing a graphene film Name: Rodney S. Ruoff University: University of Texas at Austin Country: United States Patent number: US9051528B2 Year: 2015 | 27.Title: Method for producing a high-purity polycrystalline diamond Name: Robert H. Wentorf Jr. University: General Electric Company Country: United States Patent number: US3423218A Year: 1969 | 28.Title: Method for producing a semiconductor device with high electron mobility Name: Takashi Mimura University: Toshiba Corporation Country: Japan Patent number: US6878585B2 Year: 2005 | 29.Title: Method for producing a composite material with tunable electrical conductivity Name: Gang Bao University: Georgia Institute of Technology Country: United States Patent number: US8722934B2 Year: 2014 | 30.Title: Method for producing a thermoelectric material with enhanced power factor Name: Mercouri G. Kanatzidis University: Northwestern University Country: United States Patent number: US8021538B2 Year: 2011 | 31.Title: Method for producing a magnetic recording medium Name: Katsuaki Matsui University: Hitachi, Ltd. Country: Japan Patent number: US7364805B2 Year: 2008 | 32.Title: Method for producing a nanowire-based light-emitting device Name: Peidong Yang University: University of California, Berkeley Country: United States Patent number: US8546723B2 Year: 2013 | 33.Title: Method for producing a graphene-based thermoelectric material Name: Zhifeng Ren University: University of Houston Country: United States Patent number: US8802214B2 Year: 2014 | 34.Title: Method for producing a flexible transparent conducting electrode Name: Ali Javey University: University of California, Berkeley Country: United States Patent number: US8969091B2 Year: 2015 | 35.Title: Method for producing a high-entropy alloy material Name: | 36.Title: Method for producing a high-performance composite material Name: Robert J. Young University: University of Manchester Country: United Kingdom Patent number: US9624637B2 Year: 2017 | 37.Title: Method for producing a carbon nanotube array Name: Ray H. Baughman University: University of Texas at Dallas Country: United States Patent number: US6322917B1 Year: 2001 | 38.Title: Method for producing a high-strength metallic glass Name: Akihisa Inoue University: Tohoku University Country: Japan Patent number: US5997584A Year: 1999 | 39.Title: Method for producing a superconducting wire Name: Venkat Selvamanickam University: University of Houston Country: United States Patent number: US7993919B2 Year: 2011 | 40.Title: Method for producing a thermally conductive polymer composite Name: Yi Zheng University: University of Maryland Country: United States Patent number: US9283445B2 Year: 2016 | 41.Title: Method for producing a graphene-based thermal interface material Name: Liangbing Hu University: University of Maryland Country: United States Patent number: US10250660B2 Year: 2019 | 42.Title: Method for producing a high-capacity lithium-ion battery Name: Yi Cui University: Stanford University Country: United States Patent number: US8323831B2 Year: 2012 | 43.Title: Method for producing a semiconductor nanowire device Name: Charles M. Lieber University: Harvard University Country: United States Patent number: US7825405B2 Year: 2010 | 44.Title: Method for producing a high-performance ferroelectric material Name: Ramamoorthy Ramesh University: University of California, Berkeley Country: United States Patent number: US8084011B2 Year: 2011 | 45.Title: Method for producing a high-strength metallic glass Name: Akihisa Inoue University: Tohoku University Country: Japan Patent number: US5997584A Year: 1999 | 46.Title: Method for producing a high-entropy alloy material Name: Jien-Wei Yeh University: National Tsing Hua University Country: Taiwan Patent number: US8574654B2 Year: 2013 | 47.Title: Method for producing a nanowire-based light-emitting device Name: Peidong Yang University: University of California, Berkeley Country: United States Patent number: US8546723B2 Year: 2013 | 48.Title: Method for producing a magnetic recording medium Name: Katsuaki Matsui University: Hitachi, Ltd. Country: Japan Patent number: US7364805B2 Year: 2008 | 49.Title: Method for producing a high-temperature superconductor Name: Shunpei Yamazaki University: Semiconductor Energy Laboratory Co., Ltd. Country: Japan Patent number: US6312773B1 Year: 2001 | 50.Title: Method for producing a flexible transparent conducting electrode Name: Ali Javey University: University of California, Berkeley Country: United States Patent number: US8969091B2 Year: 2015 | 51.Title: Method for producing a thermoelectric material with high figure of merit Name: Mercouri G. Kanatzidis University: Northwestern University Country: United States Patent number: US8415457B2 Year: 2013 | 52.Title: Method for producing a transparent conductive film Name: Kazuhiro Hane University: Tokyo Institute of Technology Country: Japan Patent number: US7223476B2 Year: 2007 | 53.Title: Method for producing a carbon nanotube-based field-effect transistor Name: Phaedon Avouris University: IBM Corporation Country: United States Patent number: US7157774B2 Year: 2007 | 54.Title: Method for producing a graphene-based composite material Name: Rodney S. Ruoff University: University of Texas at Austin Country: United States Patent number: US8354373B2 Year: 2013 | 55.Title: Method for producing a high-strength ceramic material Name: Yet-Ming Chiang University: Massachusetts Institute of Technology Country: United States Patent number: US8293182B2 Year: 2012 | 56.Title: Method for producing a thin-film transistor with high mobility Name: Takayasu Sakurai University: University of Tokyo Country: Japan Patent number: US8318587B2 Year: 2012 | 57.Title: Method for producing a quantum dot-based solar cell Name: Victor I. Klimov University: Los Alamos National Laboratory Country: United States Patent number: US8852885B2 Year: 2014 | 58.Title: Method for producing a superhydrophobic surface Name: Lei Jiang University: Technical Institute of Physics and Chemistry, Chinese Academy of Sciences Country: China Patent number: US7670642B2 Year: 2010 | 59.Title: Method for producing a photonic crystal Name: Eli Yablonovitch University: University of California, Berkeley Country: United States Patent number: US7224473B2 Year: 2007 | 60.Title: Method for producing a high-performance organic light-emitting diode Name: Chihaya Adachi University: Kyushu University Country: Japan Patent number: US8492704B2 Year: 2013 | 61.Title: Method for producing a thin film of graphene oxide Name: Andre Geim University: University of Manchester Country: United Kingdom Patent number: US7902001B2 Year: 2011 | 62.Title: Method for producing a semiconductor device with low contact resistance Name: Shunpei Yamazaki University: Semiconductor Energy Laboratory Co., Ltd. Country: Japan Patent number: USRE43921E1 Year: 2012 | 63.Title: Method for producing a superconductive material Name: Alexei Abrikosov University: Argonne National Laboratory Country: United States Patent number: US6951697B2 Year: 2005 | 64.Title: Method for producing a magnetic nanoparticle Name: Sungho Jin University: University of California, San Diego Country: United States Patent number: US8124052B2 Year: 2012 | 65.Title: Method for producing a nanowire-based transistor Name: Charles Lieber University: Harvard University Country: United States Patent number: US7977117B2 Year: 2011 | 66.Title: Method for producing a semiconductor nanocrystal-based photodetector Name: Moungi G. Bawendi University: Massachusetts Institute of Technology Country: United States Patent number: US6949396B2 Year: 2005 | 67.Title: Method for producing a ferromagnetic thin film Name: Masamitsu Hayashi University: Tohoku University Country: Japan Patent number: US7371413B2 Year: 2008 | 68.Title: Method for producing a lithium-ion battery with high energy density Name: Yi Cui University: Stanford University Country: United States Patent number: US9520514B2 Year: 2016 | 69.Title: Method for producing a nanotube-based material with high strength and toughness Name: Huajian Gao University: Brown University Country: United States Patent number: US8142583B2 Year: 2012 | 70.Title: Method for producing a thermoelectric material with high power factor Name: G. Jeffrey Snyder University: Northwestern University Country: United States Patent number: US7723106B2 Year: 2010 | 71.Title: Method for producing a carbon nanotube-based device Name: Sumio Iijima University: Meijo University Country: Japan Patent number: US6355159B1 Year: 2002 | 72.Title: Method for producing a thin film transistor using a self-assembled monolayer Name: Tobin J. Marks University: Northwestern University Country: United States Patent number: US7772121B2 Year: 2010 | 73.Title: Method for producing a light-emitting diode using a quantum dot nanocrystal Name: Xiaogang Peng University: Zhejiang University Country: China Patent number: US7339233B2 Year: 2008 | 74.Title: Method for producing a high-temperature superconductor with improved properties Name: David C. Larbalestier University: University of Wisconsin-Madison Country: United States Patent number: US5700561A Year: 1997 | 75.Title: Method for producing a graphene-based material with controlled bandgap Name: Mildred S. Dresselhaus University: Massachusetts Institute of Technology Country: United States Patent number: US8829446B2 Year: 2014 | 76.Title: Method for producing a nanocrystalline material with improved mechanical properties Name: Terence G. Langdon University: University of Southampton Country: United Kingdom Patent number: US5372842A Year: 1994 | 77.Title: Method for producing a high-performance solid-state battery Name: John B. Goodenough University: University of Texas at Austin Country: United States Patent number: US9893199B2 Year: 2018 | 78.Title: Method for producing a quantum dot-based solar cell Name: Ted Sargent University: University of Toronto Country: Canada Patent number: US7902453B2 Year: 2011 | 79.Title: Method for producing a memristive device based on a metal oxide Name: R. Stanley Williams University: Hewlett-Packard Company Country: United States Patent number: US8374092B2 Year: 2013 | 80.Title: Method for producing a topological insulator-based device Name: M. Zahid Hasan University: Princeton University Country: United States Patent number: US8889358B2 Year: 2014 | 81.Title: Method for producing a flexible electronic device using a polymer nanocomposite Name: Zhenan Bao University: Stanford University Country: United States Patent number: US9865803B2 Year: 2018 | 82.Title: Method for producing a nanoscale magnetic material with high thermal stability Name: Michael Coey University: Trinity College Dublin Country: Ireland Patent number: US7759116B2 Year: 2010 | 83.Title: Method for producing a self-healing hydrogel using a supramolecular assembly Name: Jianjun Cheng University: University of Illinois at Urbana-Champaign Country: United States Patent number: US9737683B2 Year: 2017 | 84.Title: Method for producing a micro-electromechanical system (MEMS) using a silicon-on-insulator (SOI) substrate Name: Kristofer S. J. Pister University: University of California, Berkeley Country: United States Patent number: US6668349B2 Year: 2003 | 85.Title: Method for producing a spintronic device using a magnetic tunnel junction Name: Stuart S. P. Parkin University: Max Planck Institute of Microstructure Physics Country: Germany Patent number: US6943691B2 Year: 2005 | 86.Title: Method for producing a plasmonic sensor using a metal nanoparticle array Name: Naomi J. Halas University: Rice University Country: United States Patent number: US10154731B2 Year: 2018 | 87.Title: Method for producing a phase-change memory device using a chalcogenide material Name: Rainer Waser University: RWTH Aachen University Country: Germany Patent number: US8878765B2 Year: 2014 | 88.Title: Method for producing a two-dimensional material with high electron mobility Name: Andre K. Geim University: University of Manchester Country: United Kingdom Patent number: US10473200B2 Year: 2019 | 89.Titl/e: Method for producing a perovskite solar cell with improved stability Name: Henry J. Snaith University: University of Oxford Country: United Kingdom Patent number: US10665790B2 Year: 2020 | 90.Title: Method for producing a quantum dot-based single-photon emitter Name: Alexander I. Tartakovskii University: University of Sheffield Country: United Kingdom Patent number: US10278075B2 Year: 2019 | 91.Title: Method for producing a graphene-based transparent conductor Name: Kostya S. Novoselov University: University of Manchester Country: United Kingdom Patent number: US10075295B2 Year: 2018 | 92.Title: Method for producing a nanoscale magnetic material with high coercivity Name: J. Ping Liu University: University of Texas at Arlington Country: United States Patent number: US8075997B2 Year: 2011 | 93.Title: Method for producing a carbon nanotube-based field emitter Name: Pulickel M. Ajayan University: Rice University Country: United States Patent number: US8558714B2 Year: 2013 | 94.Title: Method for producing a lithium-sulfur battery with high energy density Name: Linda F. Nazar University: University of Waterloo Country: Canada Patent number: US10283615B2 Year: 2019 | 95.Title: Method for producing a semiconductor device using a silicon germanium (SiGe) alloy Name: Krishna C. Saraswat University: Stanford University Country: United States Patent number: US6127246A Year: 2000 | 96.Title: Method for producing a plasmonic material using a metal-dielectric-metal (MDM) structure Name: Mark L. Brongersma University: Stanford University Country: United States Patent number: US9614151B2 Year: 2017 | 97.Title: Method for producing a thermoelectric material using a bismuth telluride (Bi2Te3) compound Name: Mercouri G. Kanatzidis University: Northwestern University Country: United States Patent number: US8704145B2 Year: 2014 | 98.Title: Method for producing a superconducting wire using a high-temperature ceramic material Name: Venkat Selvamanickam University: University of Houston Country: United States Patent number: US8088751B2 Year: 2012 | 99.Title: Method for producing a magnetic material using a rare earth-transition metal alloy Name: Vitalij K. Pecharsky University: Iowa State University Country: United States Patent number: US7314596B2 Year: 2008 | 100.Title: Method for producing a carbon-based thermoelectric material using a nanocomposite approach Name: Mildred S. Dresselhaus University: Massachusetts Institute of Technology Country: United States Patent number: US20070202267A1 Year: 2007
Related Researchers
Related Researchers
1. Aharon Kapitulnik, Stanford University, USA - Superconductivity | 2. Andrea Cavalleri, University of Oxford, UK - Ultrafast Dynamics in Condensed Matter | 3. Andrew Boothroyd, University of Oxford, UK - Quantum Materials | 4. Andrew Goodwin, University of Oxford, UK - Solid-State Chemistry | 5. Anthony Leggett, University of Illinois at Urbana-Champaign, USA - Superfluidity and Superconductivity | 6. Aron Pinczuk, Columbia University, USA - Nanoscale Science and Technology | 7. Arun Bansil, Northeastern University, USA - Theoretical Condensed Matter Physics | 8. Arthur J. Freeman, Northwestern University, USA - Electronic Structure of Materials | 9. Ashwin Vishwanath, Harvard University, USA - Topological Phases of Matter | 10. Bella Lake, Helmholtz-Zentrum Berlin, Germany - Neutron Scattering and Spectroscopy | 11. Bertrand Halperin, Harvard University, USA - Quantum Condensed Matter Theory | 12. C. Stephen Hellberg, Naval Research Laboratory, USA - Electronic Structure Theory | 13. Carlos Bustamante, University of California, Berkeley, USA - Single-Molecule Biophysics | 14. Charles Kane, University of Pennsylvania, USA - Topological Insulators and Superconductors | 15. Ching-Wu \"Paul\" Chu, University of Houston, USA - High-Temperature Superconductivity | 16. David Hsieh, California Institute of Technology, USA - Topological Quantum Materials | 17. David J. Bishop, ETH Zurich, Switzerland - Soft Condensed Matter Physics | 18. Denis Basko, Université Paris-Saclay, France - Quantum Transport and Open Systems | 19. Dieter Vollhardt, University of Augsburg, Germany - Strongly Correlated Electrons | 20. Dirk van der Marel, University of Geneva, Switzerland - Optical Properties of Materials | 21. Erez Berg, Weizmann Institute of Science, Israel - Quantum Magnetism and Topology | 22. Francesca Palombo, Imperial College London, UK - Biomedical Imaging | 23. Frank Steglich, Max Planck Institute for Chemical Physics of Solids, Germany - Heavy-Fermion Systems | 24. George P. Williams, University of Maryland, USA - Electronic and Optical Properties of Materials | 25. Hanno zur Loye, University of South Carolina, USA - Solid-State Chemistry | 26. Hiroshi M. Yamamoto, Stanford University, USA - Quantum Optics | 27. J. Michael Kosterlitz, Brown University, USA - Phase Transitions and Topological Order | 28. Jacques Distler, University of Texas at Austin, USA - Quantum Field Theory and String Theory | 29. James Analytis, University of California, Berkeley, USA - Quantum Materials | 30. Jean-Marie Tarascon, Collège de France, France - Energy Storage Materials | 31. Jennifer Cano, Stony Brook University, USA - Topological Quantum Matter | 32. John B. Goodenough, University of Texas at Austin, USA - Materials Science and Solid-State Chemistry | 33. John L. Sarrao, Los Alamos National Laboratory, USA - Strongly Correlated Electron Systems | 34. Jörg Wrachtrup, University of Stuttgart, Germany - Quantum Sensing and Quantum Information | 35. Julia Yeomans, University of Oxford, UK - Soft Condensed Matter Physics | 36. Katerina E. Aifantis, University of Florida, USA - Materials Science and Engineering | 37. Katherine A. Mirica, Dartmouth College, USA - Organic and Polymer Materials Chemistry | 38. Kazushi Aoyama, Osaka University, Japan - | 39. Kenjiro Gomes, RIKEN, Japan - Topological Insulators and Superconductors | 40. Laura H. Greene, Florida State University, USA - Superconductivity | 41. Leon Balents, University of California, Santa Barbara, USA - Theoretical Condensed Matter Physics | 42. Lilia Boeri, University of Duisburg-Essen, Germany - High-Pressure Physics | 43. Louis Taillefer, Université de Sherbrooke, Canada - Superconductivity and Quantum Materials | 44. Lu Sham, University of California, San Diego, USA - Density Functional Theory | 45. M. Brian Maple, University of California, San Diego, USA - Condensed Matter Physics | 46. Malcolm J. Cooper, University of Warwick, UK - Low-Temperature Physics | 47. Mark E. Fisher, University of California, San Diego, USA - Statistical Physics and Phase Transitions | 48. Mark Golden, University of Amsterdam, Netherlands - Electronic Properties of Materials | 49. Mark R. Johnson, University of Oxford, UK - Physical Chemistry of Materials | 50. Masaki Oshikawa, University of Tokyo, Japan - Quantum Field Theory and Condensed Matter Physics | 51. Matthias Eschrig, Royal Holloway, University of London, UK - Superconductivity | 52. Matthias Troyer, ETH Zurich, Switzerland - Computational Condensed Matter Physics | 53. Mikhail Eremets, Max Planck Institute for Chemistry, Germany - High-Pressure Physics | 54. Mordechai Segev, Technion - Israel Institute of Technology, Israel - Nonlinear Optics and Photonics | 55. Nai-Chang Yeh, California Institute of Technology, USA - Experimental Condensed Matter Physics | 56. Neil A. W. Holme, University of Durham, UK - Physical Organic Chemistry | 57. Nicholas P. Ong, Princeton University, USA - Condensed Matter Physics and Materials Science | 58. Nicola Marzari, École Polytechnique Fédérale de Lausanne, Switzerland - Materials Science and Theory | 59. Patrick A. Lee, Massachusetts Institute of Technology, USA - Condensed Matter Theory | 60. Paul M. Chaikin, New York University, USA - Soft Condensed Matter Physics | 61. Philip Phillips, University of Illinois at Urbana-Champaign, USA - Theoretical Condensed Matter Physics | 62. Peter B. Littlewood, University of Chicago, USA - Theoretical Condensed Matter Physics | 63. Peter G. Wolynes, University of California, San Diego, USA - Theoretical Condensed Matter Physics and Biophysics | 64. Peter Schiffer, University of Illinois at Urbana-Champaign, USA - Condensed Matter Physics | 65. Qimiao Si, Rice University, USA - Theoretical Condensed Matter Physics | 66. R. J. Dwayne Miller, University of Toronto, Canada - Ultrafast Chemical Dynamics | 67. R. Shankar, Yale University, USA - Theoretical Condensed Matter Physics | 68. Rafael Jaramillo, Massachusetts Institute of Technology, USA - Materials Science and Engineering | 69. Richard A. L. Jones, University of Manchester, UK - Soft Condensed Matter Physics and Materials Science | 70. Richard J. Needs, University of Cambridge, UK - Materials Science and Theory | 71. Robert J. Cava, Princeton University, USA - Solid-State Chemistry and Materials Science | 72. Roberta Sessoli, University of Florence, Italy - Molecular Magnetism and Spintronics | 73. Roman M. Lutchyn, Microsoft Quantum, USA - Topological Quantum | 74.Aaron Bostwick, Lawrence Berkeley National Laboratory, USA - Surface Science and Materials Physics | 75.Albert Migliori, Los Alamos National Laboratory, USA - High-Pressure Physics and Materials Science | 76.Alexei Tsvelik, Brookhaven National Laboratory, USA - Theoretical Condensed Matter Physics | 77.Andrew Millis, Columbia University, USA - Theoretical Condensed Matter Physics | 78.Andrew J. Berlinsky, University of Toronto, Canada - High-Temperature Superconductivity | 79.Aron Pinczuk, Columbia University, USA - Low-Dimensional Quantum Systems | 80.Ashvin Vishwanath, Harvard University, USA - Theoretical Condensed Matter Physics | 81.Avik W. Ghosh, University of Virginia, USA - Nanoelectronics and Quantum Computing | 82.Bernd T. Matthias, University of California, San Diego, USA - Superconductivity and Materials Science | 83.Carlo Beenakker, Leiden University, Netherlands - Mesoscopic Physics and Quantum Computing | 84.Catherine Stampfl, University of Sydney, Australia - Computational Materials Science | 85.Charles Kane, University of Pennsylvania, USA - Topological Quantum Matter | 86.Chia-Ling Chien, Johns Hopkins University, USA - Magnetism and Spintronics | 87.Christopher A. Marianetti, Columbia University, USA - Materials Science and Theory | 88.Clifford Kubiak, University of California, San Diego, USA - Materials Chemistry and Energy | 89.David Goldhaber-Gordon, Stanford University, USA - Quantum Transport and Spintronics | 90.David Vanderbilt, Rutgers University, USA - Theoretical Condensed Matter Physics | 91.Dmitri A. Ivanov, University of Duisburg-Essen, Germany - Condensed Matter Theory and Quantum Information | 92.Douglas Natelson, Rice University, USA - Nanoscale Physics and Materials Science | 93.Efthimios Kaxiras, Harvard University, USA - Computational Materials Science | 94.Eiichiro Watanabe, University of Tokyo, Japan - Superconductivity and Strongly Correlated Electrons | 95.Eli Yablonovitch, University of California, Berkeley, USA - Photonic Materials and Devices | 96.Emanuel Tutuc, University of Texas at Austin, USA - Quantum Transport and Spintronics | 97Eric A. Cornell, University of Colorado Boulder, USA - Atomic and Molecular Physics | 98.Eugene J. Mele, University of Pennsylvania, USA - Theoretical Condensed Matter Physics | 99.F. Duncan M. Haldane, Princeton University, USA - Theoretical Condensed Matter Physics | 100.Francesca Tavazza, Stanford University, USA - Computational Materials Science
Sponsorship
Sponsorship Details
Condensed Matter Physics Conferences warmly invite you to sponsor or exhibit of International Conference. We expect participants more than 200 numbers for our International conference will provide an opportunity to hear and meet/ads to Researchers, Practitioners, and Business Professionals to share expertise, foster collaborations, and assess rising innovations across the world in the core area of mechanical engineering.
Diamond Sponsorship
- Acknowledgment during the opening of the conference
- Complimentary Booth of size 10 meters square
- Four (4) delegate’s complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- One exhibition stand (1×1 meters) for the conference
- One full cover page size ad in conference proceedings
- Opportunities for Short speech at events
- Option to sponsors conference kit
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference lunch
- Recognition in video ads
- 150-word company profile and contact details in the delegate pack
Platinum Sponsorship
- Three (3) delegate’s complimentary registrations with lunch
- Recognition in video ads
- Opportunity to sponsors conference lunch
- Opportunity to sponsors conference lanyards, ID cards
- Opportunity to sponsors conference kit
- Opportunity for Short speech at events
- One full-page size ad in conference proceedings
- One exhibition stand (1×1 meters) for the conference
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
Gold Sponsorship
- Two (2) delegate’s complimentary registrations with lunch
- Opportunities for Short speech at events
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- Include marketing document in the delegate pack
- Complimentary Booth of size 10 meters square
- Acknowledgment during the opening of the conference
- 100-word company profile and contact details in the delegate pack
- ½ page size ad in conference proceedings
Silver Sponsorship
- Acknowledgment during the opening of the conference
- One(1) delegate’s complimentary registrations with lunch
- Include marketing document in the delegate pack
- Logo on Conference website, Banners, Backdrop, and conference proceedings
- ¼ page size ad in conference proceedings
- 100-word company profile and contact details in the delegate pack
Individual Sponsorship
- Acknowledgment during the opening of the conference
- One(1) delegate’s complimentary registrations with lunch
Registration Fees
Details | Registration fees |
Diamond Sponsorship | USD 2999 |
Platinum Sponsorship | USD 2499 |
Gold Sponsorship | USD 1999 |
Silver Sponsorship | USD 1499 |
Individual Sponsorship | USD 999 |
Exhibitions
Exhibitions Details
Exhibit your Products & Services
Exhibit your Products & Services at Condensed Matter Physics Conferences. Exhibitors are welcome from Commercial and Non-Commercial Organizations related to a conference title.
- The best platform to develop new partnerships & collaborations.
- Best location to speed up your route into every territory in the World.
- Our exhibitor booths were visited 4-5 times by 80% of the attendees during the conference.
- Network development with both Academia and Business.
Exhibitor Benefits
- Exhibit booth of Size-3X3 sqm.
- Promotion of your logo/Company Name/Brand Name through the conference website.
- Promotional video on company products during the conference (Post session and Breaks).
- Logo recognition in the Scientific program, Conference banner, and flyer.
- One A4 flyer inserts into the conference kit.
- An opportunity to sponsor 1 Poster Presentation Award.
Target Countries
Targeted Countries
Afghanistan| Albania| Algeria| Andorra | Angola| Antigua and Barbuda| Argentina| Armenia| Australia| Austria| Azerbaijan| Bahamas| Bahrain| Bangladesh| Barbado| Belarus|Belgium| Belize| Benin| Bhutan| Bolivia| Bosnia and Herzegovina| Botswana| Brazil| Brunei| Bulgaria| Burkina Faso| Burundi| Cabo Verde| Cambodia| Cameroon| Canada| Central African Republic| Chad| Chile| China| Colombia| Comoros| Democratic Republic of the Congo| Republic of the Congo| Costa Rica| Cote d'Ivoire| Croatia| Cuba| Cyprus| Czech Republic| Denmark| Djibouti| Dominica| Dominican Republic| Ecuador| Egypt| El Salvador| Equatorial Guinea| Eritrea| Estonia| Eswatini| Ethiopia| Fiji| Finland| France| Gabon| Gambia| Georgia| Germany| Ghana| Greece| Grenada| Guatemala| Guinea| Guinea-Bissau| Guyana| Haiti| Honduras| Hungary| Iceland| India| Indonesia| Iran| Iraq| Ireland| Israel| Italy| Jamaica| Japan| Jordan| Kazakhstan| Kenya| Kiribati| Kosovo| Kuwait| Kyrgyzstan| Laos| Latvia| Lebanon| Lesotho| Liberia| Libya| Liechtenstein| Lithuania| Luxembourg| Madagascar| Malawi| Malaysia| Maldives| Mali| Malta| Marshall Islands| Mauritania| Mauritius| Mexico| Micronesia| Moldova| Monaco| Mongolia| Montenegro| Morocco| Mozambique| Myanmar (Burma)| Namibia| Nauru| Nepal| Netherlands| New Zealand| Nicaragua| Niger| Nigeria| North Korea| North Macedonia| Norway| Oman| Pakistan| Palau| Panama| Papua New Guinea| Paraguay| Peru| Philippines| Poland| Portugal| Qatar| Romania| Russia| Rwanda| Saint Kitts and Nevis| Saint Lucia| Saint Vincent and the Grenadines| Samoa| San Marino| Sao Tome and Principe| Saudi Arabia| Senegal| Serbia| Seychelles| Sierra Leone| Singapore| Slovakia| Slovenia| Solomon Islands| Somalia| South Africa| South Korea| South Sudan| Spain| Sri Lanka| Sudan| Suriname| Sweden| Switzerland| Syria| Taiwan| Tajikistan| Tanzania| Thailand| Timor-Leste| Togo| Tonga| Trinidad and Tobago| Tunisia| Turkey| Turkmenistan| Tuvalu| Uganda| Ukraine| United Arab Emirates|United Kingdom| United States| Uruguay| Uzbekistan| Vanuatu| Vatican City| Venezuela| Vietnam| Yemen| Zambia| Zimbabwe.