Fayetteville, AR, United States of America

Xiaogang Peng

USPTO Granted Patents = 19 (Patent Applications = 1)

CIPO Patents = 1

EPO Patents = 4 (Patent Applications = 2)

Average Co-Inventor Count = 2.9

ph-index = 12

Forward Citations = 1,081(Granted Patents)

Company Filing History:

17 out of 836

University of Arkansas

patents

2 out of 15,475

University of California

patents

Years Active: 2001-2017

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19 patents (USPTO):Sort by Forward CitationsExplore Patents

1. 9850426 - Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same (2017-12-26),

2. 9340726 - Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same (2016-05-17),

3. 9260652 - Metal doped semiconductor nanocrystals and methods of making the same (2016-02-16),

4. 8900481 - Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same (2014-12-02),

5. 8658065 - Colloidal semiconductor nanocrystals having 1-dimensional quantum confinement and methods of making the same (2014-02-25),

6. 8012377 - Doped semiconductor nanocrystals and methods of making same (2011-09-06),

7. 8007757 - Multi-dimensional complex nanocrystal structures and methods of making same (2011-08-30),

8. 7919012 - Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same (2011-04-05),

9. 7767260 - Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same (2010-08-03),

10. 7632428 - Doped semiconductor nanocrystals and methods of making same (2009-12-15),

11. 7531149 - Synthetic control of metal oxide nanocrystal sizes and shapes (2009-05-12),

12. 7273904 - Nanocrystals in ligand boxes exhibiting enhanced chemical, photochemical, and thermal stability, and methods of making the same (2007-09-25),

13. 7160525 - Monodisperse noble metal nanocrystals (2007-01-09),

14. 7153703 - Synthesis of stable colloidal nanocrystals using organic dendrons (2006-12-26),

15. 7105051 - High quality colloidal nanocrystals and methods of preparing the same in non-coordinating solvents (2006-09-12),

Title: **Xiaogang Peng: Innovator in Nanocrystal Technology**

Introduction

Xiaogang Peng is a prominent inventor based in Fayetteville, Arkansas, who has made significant contributions to the field of nanotechnology. With an impressive portfolio of 19 patents, he has been at the forefront of innovations involving semiconductor nanocrystals, which have wide-ranging applications in various technologies.

Latest Patents

One of Xiaogang Peng's notable patents is focused on "Monodisperse core/shell and other complex structured nanocrystals and methods of preparing the same." This invention introduces new compositions that contain nearly monodisperse colloidal core/shell semiconductor nanocrystals known for their high photoluminescence quantum yields (PL QY). Additionally, it encompasses methods for synthesizing these nanocrystals and developing devices incorporating these advanced materials. Beyond core/shell structures, this patent highlights various complex semiconductor nanostructures, including quantum shells, quantum wells, doped nanocrystals, and multiple-shelled semiconductor nanocrystals.

Career Highlights

Xiaogang Peng has had a noteworthy career, primarily associated with academic institutions such as the University of Arkansas and the University of California. His roles in these institutions have allowed him to advance research in nanocrystal technology and collaborate on innovative projects.

Collaborations

Throughout his career, Xiaogang Peng has worked alongside esteemed colleagues including David Battaglia and Y. Andrew Wang. These collaborations have not only enhanced his research but have also contributed to the advancement of the field through shared expertise and innovative approaches.

Conclusion

Xiaogang Peng's work in nanocrystals exemplifies the potential of innovative processes and materials in transforming technology. His dedication to research and development continues to inspire advancements in semiconductor technology that may have significant implications for future applications in electronics and optoelectronics.

This text is generated by artificial intelligence and may not be accurate.