Kenneth Lyle Shepard

Affiliations: 
1997- Electrical Engineering Columbia University, New York, NY 
Area:
power electronics, carbon-based devices and circuits, and CMOS bioelectronics.
Website:
http://www.ee.columbia.edu/ken-shepard
Google:
"Kenneth Lyle Shepard"
Bio:

http://www.bioee.ee.columbia.edu/~shepard/
https://books.google.com/books?id=KBJUAAAAYAAJ

Parents

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James S. Harris grad student 1992 Stanford
Michael Lee Roukes grad student 1992 Stanford (Physics Tree)
 (Electron transport in mesoscopic conductors.)

Children

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Rizwan Huq grad student 2014- Columbia
Yu Zheng grad student 2003 Columbia
Steven C. Chan grad student 2005 Columbia
Yee Li grad student 2005 Columbia
George Patounakis grad student 2005 Columbia
Saravanan Rajapandian grad student 2005 Columbia
Anup P. Jose grad student 2006 Columbia
Ta-chien D. Huang grad student 2010 Columbia
Na Lei grad student 2011 Columbia
Inanc Meric grad student 2011 Columbia
Sebastian Sorgenfrei grad student 2011 Columbia
Matthew L Johnston grad student 2012 Columbia
Simeon D. Realov grad student 2012 Columbia
Zhi-De Deng grad student 2013 Columbia
Jacob K. Rosenstein grad student 2013 Columbia
Noah A. Sturcken grad student 2013 Columbia
Ryan M. Field grad student 2014 Columbia
Michael S. Lekas grad student 2015 Columbia
BETA: Related publications

Publications

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Shekar S, Jayant K, Rabadan MA, et al. (2019) A miniaturized multi-clamp CMOS amplifier for intracellular neural recording. Nature Electronics. 2: 343-350
Choi J, Taal AJ, Pollmann EH, et al. (2019) A 512-Pixel, 51-kHz-Frame-Rate, Dual-Shank, Lens-less, Filter-less Single Photon Avalanche Diode CMOS Neural Imaging Probe. Ieee Journal of Solid-State Circuits. 54: 2957-2968
Chien CC, Shekar S, Niedzwiecki DJ, et al. (2019) Single-Stranded DNA Translocation Recordings Through Solid-State Nanopores on Glass Chips at 10-MHz Measurement Bandwidth. Acs Nano
Hartel AJW, Shekar S, Ong P, et al. (2019) High bandwidth approaches in nanopore and ion channel recordings - A tutorial review. Analytica Chimica Acta. 1061: 13-27
Jayant K, Wenzel M, Bando Y, et al. (2019) Flexible Nanopipettes for Minimally Invasive Intracellular Electrophysiology In Vivo. Cell Reports. 26: 266-278.e5
Shekar S, Chien CC, Hartel A, et al. (2019) Wavelet denoising of high-bandwidth nanopore and ion channel signals. Nano Letters
Fleischer DA, Shekar S, Dai S, et al. (2018) CMOS-Integrated Low-Noise Junction Field-Effect Transistors for Bioelectronic Applications. Ieee Electron Device Letters : a Publication of the Ieee Electron Devices Society. 39: 931-934
Tsai D, Sawyer D, Bradd A, et al. (2018) Addendum: A very large-scale microelectrode array for cellular-resolution electrophysiology. Nature Communications. 9: 4497
Lee Y, Trocchia SM, Warren SB, et al. (2018) Electrically Controllable Single-Point Covalent Functionalization of Spin-Cast Carbon-Nanotube Field-Effect Transistor Arrays. Acs Nano
Tsai D, Yuste R, Shepard KL. (2018) Correction to "Statistically Reconstructed Multiplexing for Very Dense, High-Channel-Count Acquisition Systems". Ieee Transactions On Biomedical Circuits and Systems
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