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2008
23. Y. Jung, S.-H. Lee, D.-K. Ko, and R. Agarwal, “Size-dependent Surface-induced Heterogeneous Nucleation Driven Phase-change in Ge2Sb2Te5 Nanowires”, Nano Letters, 8, 3303 (2008). [Link] 22. O. Hayden, R. Agarwal*, and W. Lu, “Semiconductor Nanowire Devices – Bottom Up Meets Top Down”, Nano Today, 3, 12 (2008). [Link] 21. Y. Jung, S.-H. Lee, A. T.…
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2022
109. Zhifeng Zhang, Haoqi Zhao, Shuang Wu, Tianwei Wu, Xingdu Qiao, Zihe Gao, Ritesh Agarwal, Stefano Longhi, Natalia M Litchinitser, Li Ge, Liang Feng “Spin–orbit microlaser emitting in a four-dimensional Hilbert space”, Nature . [Link] 108. Utku Emre Ali, He Yang, Vladislav Khayrudinov, Gaurav Modi, Zengguang Cheng, Ritesh Agarwal, Harri Lipsanen, Harish Bhaskaran “A Universal…
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Past Masters Students
Haofeng Li (Polymer/Semiconductor hybrid solar cells): May 2011. Currently Ph.D. student at Dartmouth College, Thayer School of Engineering. Dong-Kyon Ko (Growth of Phase Change Nanowires): Dec 2006. Currently Ph.D. student at Penn Chemistry. Yu-Han Cheng (Controlled Growth of High-Density Nanowires): May 2007. Currently Ph.D. student at UCSD. Tyler Zimmerman (Nanowire Solar Cells): May 2008. Currently at Boeing…
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Nanowire Phase Change Memory, University of Pennsylvania
Featured amongst the top five biggest advance in nanoscience in 2007 by MIT Technology Review Featured on Comcast Network Channel on cable television as a part of Art Fennel Reports show, Dec 19th, 2007. Phase Change Nanowire images displayed at the New York Museum of Modern Art as a part of the exhibition “Design and…