Quan Qing
Quan Qing
Professor of Physics, Arizona State University
Verified email at - Homepage
Cited by
Cited by
Effect of chemical oxidation on the structure of single-walled carbon nanotubes
J Zhang, H Zou, Q Qing, Y Yang, Q Li, Z Liu, X Guo, Z Du
The Journal of Physical Chemistry B 107 (16), 3712-3718, 2003
Three-dimensional, flexible nanoscale field-effect transistors as localized bioprobes
B Tian, T Cohen-Karni, Q Qing, X Duan, P Xie, CM Lieber
Science 329 (5993), 830-834, 2010
Macroporous nanowire nanoelectronic scaffolds for synthetic tissues
B Tian, J Liu, T Dvir, L Jin, JH Tsui, Q Qing, Z Suo, R Langer, DS Kohane, ...
Nature materials 11 (11), 986-994, 2012
Intracellular recordings of action potentials by an extracellular nanoscale field-effect transistor
X Duan, R Gao, P Xie, T Cohen-Karni, Q Qing, HS Choe, B Tian, X Jiang, ...
Nature nanotechnology 7 (3), 174-179, 2012
Graphene and nanowire transistors for cellular interfaces and electrical recording
T Cohen-Karni, Q Qing, Q Li, Y Fang, CM Lieber
Nano letters 10 (3), 1098-1102, 2010
Local electrical potential detection of DNA by nanowire–nanopore sensors
P Xie, Q Xiong, Y Fang, Q Qing, CM Lieber
Nature nanotechnology 7 (2), 119-125, 2012
Electrochemical gate-controlled charge transport in graphene in ionic liquid and aqueous solution
F Chen, Q Qing, J Xia, J Li, N Tao
Journal of the American Chemical Society 131 (29), 9908-9909, 2009
Electrical recording from hearts with flexible nanowire device arrays
BP Timko, T Cohen-Karni, G Yu, Q Qing, B Tian, CM Lieber
Nano letters 9 (2), 914-918, 2009
Free-standing kinked nanowire transistor probes for targeted intracellular recording in three dimensions
Q Qing, Z Jiang, L Xu, R Gao, L Mai, CM Lieber
Nature nanotechnology 9 (2), 142-147, 2014
Nanowire transistor arrays for mapping neural circuits in acute brain slices
Q Qing, SK Pal, B Tian, X Duan, BP Timko, T Cohen-Karni, VN Murthy, ...
Proceedings of the National Academy of Sciences 107 (5), 1882-1887, 2010
Kinked p–n junction nanowire probes for high spatial resolution sensing and intracellular recording
Z Jiang, Q Qing, P Xie, R Gao, CM Lieber
Nano letters 12 (3), 1711-1716, 2012
Outside looking in: nanotube transistor intracellular sensors
R Gao, S Strehle, B Tian, T Cohen-Karni, P Xie, X Duan, Q Qing, ...
Nano letters 12 (6), 3329-3333, 2012
Design and implementation of functional nanoelectronic interfaces with biomolecules, cells, and tissue using nanowire device arrays
BP Timko, T Cohen-Karni, Q Qing, B Tian, CM Lieber
IEEE transactions on nanotechnology 9 (3), 269-280, 2009
Design and synthesis of diverse functional kinked nanowire structures for nanoelectronic bioprobes
L Xu, Z Jiang, Q Qing, L Mai, Q Zhang, CM Lieber
Nano letters 13 (2), 746-751, 2013
Synthetically encoded ultrashort-channel nanowire transistors for fast, pointlike cellular signal detection
T Cohen-Karni, D Casanova, JF Cahoon, Q Qing, DC Bell, CM Lieber
Nano letters 12 (5), 2639-2644, 2012
Controllable interconnection of single-walled carbon nanotubes under AC electric field
Z Chen, Y Yang, F Chen, Q Qing, Z Wu, Z Liu
The Journal of Physical Chemistry B 109 (23), 11420-11423, 2005
Graphene Field‐Effect Transistors: Electrochemical Gating, Interfacial Capacitance, and Biosensing Applications
F Chen, Q Qing, J Xia, N Tao
Chemistry–An Asian Journal 5 (10), 2144-2153, 2010
Electrochemical approach for fabricating nanogap electrodes with well controllable separation
F Chen, Q Qing, L Ren, Z Wu, Z Liu
Applied Physics Letters 86 (12), 2005
Fixed-gap tunnel junction for reading DNA nucleotides
P Pang, BA Ashcroft, W Song, P Zhang, S Biswas, Q Qing, J Yang, ...
ACS nano 8 (12), 11994-12003, 2014
Finely tuning metallic nanogap size with electrodeposition by utilizing high-frequency impedance in feedback
Q Qing, F Chen, P Li, W Tang, Z Wu, Z Liu
Angewandte Chemie-International Edition 44 (47), 7771-7775, 2005
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