Tse Nga Ng
Tse Nga Ng
University of California San Diego, previously at Palo Alto Research Center
Verified email at eng.ucsd.edu - Homepage
Cited by
Cited by
A skin-inspired organic digital mechanoreceptor
BCK Tee, A Chortos, A Berndt, AK Nguyen, A Tom, A McGuire, ZC Lin, ...
Science 350 (6258), 313-316, 2015
Flexible image sensor array with bulk heterojunction organic photodiode
TN Ng, WS Wong, ML Chabinyc, S Sambandan, RA Street
Applied Physics Letters 92 (21), 191, 2008
A flexible high potential printed battery for powering printed electronics
AM Gaikwad, DA Steingart, T Nga Ng, DE Schwartz, GL Whiting
Applied Physics Letters 102 (23), 104_1, 2013
Current status and opportunities of organic thin-film transistor technologies
X Guo, Y Xu, S Ogier, TN Ng, M Caironi, A Perinot, L Li, J Zhao, W Tang, ...
IEEE transactions on electron devices 64 (5), 1906-1921, 2017
Scalable printed electronics: an organic decoder addressing ferroelectric non-volatile memory
TN Ng, DE Schwartz, LL Lavery, GL Whiting, B Russo, B Krusor, J Veres, ...
Scientific reports 2 (1), 1-7, 2012
Sol–gel solution-deposited InGaZnO thin film transistors
RA Street, TN Ng, RA Lujan, I Son, M Smith, S Kim, T Lee, Y Moon, S Cho
ACS applied materials & interfaces 6 (6), 4428-4437, 2014
Highly sensitive tactile sensors integrated with organic transistors
J Kim, T Nga Ng, W Soo Kim
Applied Physics Letters 101 (10), 103308, 2012
Electrical stability of inkjet-patterned organic complementary inverters measured in ambient conditions
TN Ng, S Sambandan, R Lujan, AC Arias, CR Newman, H Yan, ...
Applied physics letters 94 (23), 159, 2009
Organic inkjet-patterned memory array based on ferroelectric field-effect transistors
TN Ng, B Russo, B Krusor, R Kist, AC Arias
Organic Electronics 12 (12), 2012-2018, 2011
From printed transistors to printed smart systems
RA Street, TN Ng, DE Schwartz, GL Whiting, JP Lu, RD Bringans, J Veres
Proceedings of the IEEE 103 (4), 607-618, 2015
Dependence of charge injection on temperature, electric field, and energetic disorder in an organic semiconductor
TN Ng, WR Silveira, JA Marohn
Physical review letters 98 (6), 066101, 2007
Comparing the kinetics of bias stress in organic field-effect transistors with different dielectric interfaces
TN Ng, JA Marohn, ML Chabinyc
Journal of applied physics 100 (8), 084505, 2006
Batch fabrication and characterization of ultrasensitive cantilevers with submicron magnetic tips
NE Jenkins, LP DeFlores, J Allen, TN Ng, SR Garner, S Kuehn, ...
Journal of Vacuum Science & Technology B: Microelectronics and Nanometer …, 2004
Emerging design and characterization guidelines for polymer-based infrared photodetectors
Z Wu, Y Zhai, H Kim, JD Azoulay, TN Ng
Accounts of chemical research 51 (12), 3144-3153, 2018
Low temperature photodiodes and flexible image sensor arrays patterned by digital lithography
TN Ng, RA Lujan, S Sambandan, RA Street, S Limb, WS Wong
Applied Physics Letters 91 (6), 063505, 2007
Gate bias stress effects due to polymer gate dielectrics in organic thin-film transistors
TN Ng, JH Daniel, S Sambandan, AC Arias, ML Chabinyc, RA Street
Journal of Applied Physics 103 (4), 044506, 2008
Comparison of static and dynamic printed organic shift registers
DE Schwartz, TN Ng
IEEE electron device letters 34 (2), 271-273, 2013
Donor–acceptor polymers with tunable infrared photoresponse
AE London, L Huang, BA Zhang, MB Oviedo, J Tropp, W Yao, Z Wu, ...
Polymer Chemistry 8 (19), 2922-2930, 2017
Elucidating the detectivity limits in shortwave infrared organic photodiodes
Z Wu, W Yao, AE London, JD Azoulay, TN Ng
Advanced Functional Materials 28 (18), 1800391, 2018
Temperature-dependent detectivity of near-infrared organic bulk heterojunction photodiodes
Z Wu, W Yao, AE London, JD Azoulay, TN Ng
ACS applied materials & interfaces 9 (2), 1654-1660, 2017
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