M
Mingda Oscar Li
Researcher at Cornell University
Publications - 16
Citations - 191
Mingda Oscar Li is an academic researcher from Cornell University. The author has contributed to research in topics: Chemistry & Medicine. The author has an hindex of 3, co-authored 5 publications receiving 136 citations. Previous affiliations of Mingda Oscar Li include University of Notre Dame.
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Journal ArticleDOI
Two-Dimensional Heterojunction Interlayer Tunneling Field Effect Transistors (Thin-TFETs)
TL;DR: In this article, the authors proposed a two-dimensional heterojunction interlayer tunneling field effect transistor (Thin-TFET), where a steep subthreshold swing (SS) of ∼ 14$ mV/dec and a high on-current of ∼ 300~\mu $ A/ $\mu $ m are estimated theoretically.
Journal ArticleDOI
High ambipolar mobility in cubic boron arsenide
Jung-Ho Shin,Geethal Amila Gamage,Zhiwei Ding,Ke Chen,F. Tian,Xin Qian,Jiawei Zhou,Hwijong Lee,Jianshi Zhou,Li Shi,Thanh H. Nguyen,Fei Han,Mingda Oscar Li,David Broido,Aaron Jerome Schmidt,Zhifeng Ren,Gang Chen +16 more
TL;DR: Yue et al. as discussed by the authors used the optical transient grating technique to measure the ambipolar mobility of cubic boron arsenide (c-BAs) samples at room temperature despite spatial variations.
Journal ArticleDOI
Band offset and electron affinity of MBE-grown SnSe2
Qin Zhang,Mingda Oscar Li,Edward Lochocki,Suresh Vishwanath,Xinyu Liu,Rusen Yan,Huai-Hsun Lien,Malgorzata Dobrowolska,Jacek K. Furdyna,Kyle Shen,Guangjun Cheng,Angela R. Hight Walker,David J. Gundlach,Huili Grace Xing,N. V. Nguyen +14 more
TL;DR: In this paper, the electron affinity of SnSe2 has been shown to be larger than that of most semiconductors and can be combined with other appropriate semiconductorors to form near broken-gap heterojunctions for the tunnel field effect transistor that can potentially achieve high on-currents.
Proceedings ArticleDOI
Two-dimensional heterojunction interlayer tunnel FET (Thin-TFET): From theory to applications
TL;DR: In this article, a two-dimensional heterojunction interlayer field effect transistor (Thin-TFET) is proposed, where a steep subthreshold swing and a high on-current are estimated theoretically.
Journal ArticleDOI
Acid‐in‐Clay Electrolyte for Wide‐Temperature‐Range and Long‐Cycle Proton Batteries
Shitong Wang,Heng Jiang,Yan Bo Dong,David A. Clarkson,He Zhu,Charles Settens,Yang Ren,Thanh H. Nguyen,Fei Han,Weiwei Fan,So Yeon Kim,Jianan Zhang,Weijiang Xue,Sean K. Sandstrom,Guiyin Xu,Emre Tekoğlu,Mingda Oscar Li,Si-xing Deng,Qi Liu,Steve Greenbaum,Xiulei Ji,Tao Gao,Ju Jun Li +22 more
TL;DR: In this paper , acid-in-clay electrolyte (AiCE) is proposed as a solution to the element cross-over problem in proton batteries and the generic "acid-inclay" solid electrolyte approach with superfast proton transport, outstanding selectivity and improved stability for room-to-cryogenic-temperature protonic applications.