Krishna C. Saraswat

Affiliations:

Electrical Engineering

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Mean distance: 16.88

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Parents

James D. Meindl	grad student	1974	Stanford
(High voltage silicon gate MOS integrated circuits)

Children

Tsu-Jae King Liu	grad student		Stanford
Shahram Abdollahi-Alibeik	grad student	2001	Stanford
Mayur V. Joshi	grad student	2002	Stanford
Steven Jurichich	grad student	2002	Stanford
Pawan Kapur	grad student	2002	Stanford
Benjamin P. Shieh	grad student	2002	Stanford
Amol R. Joshi	grad student	2003	Stanford
Pranav P. Kalavade	grad student	2003	Stanford
Marci Y. Liao	grad student	2003	Stanford
Shukri J. Souri	grad student	2003	Stanford
Chi On Chui	grad student	2004	Stanford
Hyoungsub Kim	grad student	2004	Stanford
Daniel J. Connelly	grad student	2005	Stanford
Utkan Demirci	grad student	2005	Stanford (Neurotree)
Nabeel R. Ibrahim	grad student	2005	Stanford
Rohit S. Shenoy	grad student	2005	Stanford
Tejas Krishnamohan	grad student	2006	Stanford
Ammar Nayfeh	grad student	2006	Stanford
Hoyeol Cho	grad student	2007	Stanford
Hoon Cho	grad student	2007	Stanford
Ali K. Okyay	grad student	2007	Stanford
Abhijit Pethe	grad student	2007	Stanford
Kang-Ill Seo	grad student	2007	Stanford
Gael F. Close	grad student	2008	Stanford

Collaborators

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Publications

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Tang A, Kumar A, Jaikissoon M, et al. (2021) Toward Low-Temperature Solid-Source Synthesis of Monolayer MoS. Acs Applied Materials & Interfaces
Xue M, Nazif KN, Lyu Z, et al. (2020) Corrigendum to “Free-standing 2.7 μm thick ultrathin crystalline silicon solar cell with efficiency above 12.0%” Nano Energy, volume 70, April 2020, 104466 Nano Energy. 72: 104709
Xue M, Nazif KN, Lyu Z, et al. (2020) Free-standing 2.7 μm thick ultrathin crystalline silicon solar cell with efficiency above 12.0% Nano Energy. 70: 104466
Kim SG, Kim SH, Park J, et al. (2019) Infrared Detectable MoS Phototransistor and Its Application to Artificial Multi-Level Optic-Neural Synapse. Acs Nano
Kumar A, Islam R, Pramanik D, et al. (2019) On the limit of defect doping in transition metal oxides Journal of Vacuum Science and Technology. 37: 21505
Gupta S, Tietz S, Vuckovic J, et al. (2019) Silicon-Compatible Fabrication of Inverse Woodpile Photonic Crystals with a Complete Band Gap Acs Photonics. 6: 368-373
Islam R, Saraswat K. (2018) Limitation of Optical Enhancement in Ultra-thin Solar Cells Imposed by Contact Selectivity. Scientific Reports. 8: 8863
Xue M, Islam R, Chen Y, et al. (2018) Carrier-selective interlayer materials for silicon solar cell contacts Journal of Applied Physics. 123: 143101
Xue M, Islam R, Meng AC, et al. (2017) Contact Selectivity Engineering in 2 μm Thick Ultrathin c-Si Solar Cell using Transition Metal Oxides Achieving Efficiency of 10.8. Acs Applied Materials & Interfaces
El Atab N, Ulusoy Ghobadi G, Ghobadi A, et al. (2017) Cubic-phase zirconia nano-islands growth using atomic layer deposition and application in low-power charge-trapping nonvolatile-memory devices. Nanotechnology