A
Ali Javey
Researcher at University of California, Berkeley
Publications - 434
Citations - 61394
Ali Javey is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Carbon nanotube & Silicon. The author has an hindex of 109, co-authored 409 publications receiving 51886 citations. Previous affiliations of Ali Javey include University of California & Old Dominion University.
Papers
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Journal ArticleDOI
Catalyst-dependent morphological evolution by interfacial stress in crystalline–amorphous core–shell germanium nanowires
Nithin Devarajulu Palavalli,Alireza Yaghoubi,Chih-Chung Lai,Chin-Che Tin,Chin-Che Tin,Ali Javey,Yu-Lun Chueh +6 more
TL;DR: In this article, a method for exerting control over the morphology of nanowires (NWs) grown via a vapour-solid-solid (VSS) process from different metal catalysts is presented.
Proceedings ArticleDOI
Flexible systems for wearable physiological monitoring applications
TL;DR: A flexible fully-integrated and wireless perspiration biosensor is presented that accurately and simultaneously measures a panel of electrolytes and metabolites in sweat in real-time while calibrating the sensors' response against the change in skin temperature.
Proceedings ArticleDOI
23% efficient n-type crystalline silicon solar cells with passivated partial rear contacts
James Bullock,Yimao Wan,Xu Zhaoran,Di Yan,Pheng Phang,Mark Hettick,Chris Samundsett,Ziv Hameiri,Andres Cuevas,Ali Javey +9 more
TL;DR: In this article, the concept and potential advantages of the n-type passivated partial rear contacts (PRC) cell are explored, and the recent fabrication of a cell at 23.1%, featuring a less than 1% TiO${\mathbf {x}}$/LiF${ \mathbf{x}textbf/Al passivated PRC, demonstrates the compatibility of this concept with high efficiency designs.
High Luminescence Efficiency in MoS
Matin Amani,Robert A. Burke,Peida Zhao,Der Hsien Lien,Peyman Taheri,Geun Ho Ahn,Daisuke Kirya,Joel W. Ager,Eli Yablonovitch,Madan Dubey,Ali Javey,Xiang Ji,Jing Kong +12 more
TL;DR: In this paper, the authors performed a thorough exploration of this chemical treatment on CVD-grown MoS2 samples and found that the as-grown monolayers must be transferred to a secondary substrate, which releases strain, to obtain high QY by TFSI treatment.