Joshua T. Smith
Joshua T. Smith
Research Staff Member, IBM T. J. Watson Research Center
Verified email at
Cited by
Cited by
Nanoscale lateral displacement arrays for the separation of exosomes and colloids down to 20 nm
BH Wunsch, JT Smith, SM Gifford, C Wang, M Brink, RL Bruce, RH Austin
Nature Nanotechnology 11, 936-940, 2016
Reducing Contact Resistance in Graphene Devices through Contact Area Patterning
JT Smith, AD Franklin, DB Farmer, CD Dimitrakopoulos
ACS nano 7 (4), 3661–3667, 2013
exRNA Atlas Analysis Reveals Distinct Extracellular RNA Cargo Types and Their Carriers Present across Human Biofluids
OD Murillo, W Thistlethwaite, J Rozowsky, SL Subramanian, R Lucero, ...
Cell 177 (2), 463-477. e15, 2019
Carbon nanotube complementary wrap-gate transistors
AD Franklin, SO Koswatta, DB Farmer, JT Smith, L Gignac, CM Breslin, ...
Nano letters 13 (6), 2490-2495, 2013
Integrated nanoscale deterministic lateral displacement arrays for separation of extracellular vesicles from clinically-relevant volumes of biological samples
JT Smith, BH Wunsch, N Dogra, ME Ahsen, K Lee, KK Yadav, R Weil, ...
Lab on a Chip 18 (24), 3913-3925, 2018
Deterministic Lateral Displacement: Challenges and Perspectives
A Hochstetter, R Vernekar, RH Austin, H Becker, JP Beech, DA Fedosov, ...
ACS nano, 2020
Broken flow symmetry explains the dynamics of small particles in deterministic lateral displacement arrays
SC Kim, BH Wunsch, H Hu, JT Smith, RH Austin, G Stolovitzky
Proceedings of the National Academy of Sciences 114 (26), E5034-E5041, 2017
Fixed-Gap Tunnel Junction for Reading DNA Nucleotides
SL P Pang, BA Ashcroft, W Song, P Zhang, S Biswas, Q Qing, J Yang, RJ ...
ACS Nano 8 (12), 11994–12003, 2014
Silicon nanowire tunneling field-effect transistor arrays: Improving subthreshold performance using excimer laser annealing
JT Smith, C Sandow, S Das, RA Minamisawa, S Mantl, J Appenzeller
Electron Devices, IEEE Transactions on 58 (7), 1822-1829, 2011
Broken-gap tunnel MOSFET: A constant-slope sub-60-mV/decade transistor
JT Smith, S Das, J Appenzeller
IEEE Electron Device Letters 32 (10), 1367-1369, 2011
Highly ordered diamond and hybrid triangle-diamond patterns in porous anodic alumina thin films
JT Smith, Q Hang, AD Franklin, DB Janes, TD Sands
Applied Physics Letters 93 (4), 043108-043108-3, 2008
Gel-on-a-chip: continuous, velocity-dependent DNA separation using nanoscale lateral displacement
BH Wunsch, SC Kim, SM Gifford, Y Astier, C Wang, RL Bruce, JV Patel, ...
Lab on a Chip, 2019
Transport Modulation in Ge/Si Core/Shell Nanowires through Controlled Synthesis of Doped Si Shells
Y Zhao, JT Smith, J Appenzeller, C Yang
Nano letters 11 (4), 1406, 2011
Scalable and fully self-aligned n-type carbon nanotube transistors with gate-all-around
AD Franklin, SO Koswatta, D Farmer, GS Tulevski, JT Smith, H Miyazoe, ...
Electron Devices Meeting (IEDM), 2012 IEEE International, 4.5. 1-4.5. 4, 2012
Unannotated small RNA clusters associated with circulating extracellular vesicles detect early stage liver cancer
J von Felden, T Garcia-Lezana, N Dogra, E Gonzalez-Kozlova, ME Ahsen, ...
Gut, 2021
Hydrodynamics of Diamond-Shaped Gradient Nanopillar Arrays for Effective DNA Translocation into Nanochannels
YA C Wang, RL Bruce, EA Duch, JV Patel, JT Smith
ACS Nano 9 (2), 1206-1218, 2015
Controlled decoration of single-walled carbon nanotubes with Pd nanocubes
AD Franklin, JT Smith, T Sands, TS Fisher, KS Choi, DB Janes
The Journal of Physical Chemistry C 111 (37), 13756-13762, 2007
Integrated nanofluidic arrays for high capacity colloid separation
JT Smith, BH Wunsch, CT Yang
US Patent 9,700,891, 2017
Pillar array structure with uniform and high aspect ratio nanometer gaps
YA Astier, RL Bruce, JT Smith, C Wang, BH Wunsch
US Patent 9,636,675, 2017
Continuous flow, size-based separation of entities down to the nanometer scale using nanopillar arrays
YA Astier, JT Smith, GA Stolovitzky, C Wang, BH Wunsch
US Patent 9,975,147, 2018
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