Deli Wang
Deli Wang
UC Santa Barbara, Harvard University, UC San Diego, NEEM Scientific
Verified email at
Cited by
Cited by
ZnO nanowire UV photodetectors with high internal gain
C Soci, A Zhang, B Xiang, SA Dayeh, DPR Aplin, J Park, XY Bao, YH Lo, ...
Nano letters 7 (4), 1003-1009, 2007
High performance silicon nanowire field effect transistors
Y Cui, Z Zhong, D Wang, WU Wang, CM Lieber
Nano letters 3 (2), 149-152, 2003
Epitaxial core–shell and core–multishell nanowire heterostructures
LJ Lauhon, MS Gudiksen, D Wang, CM Lieber
nature 420 (6911), 57-61, 2002
Electrochemical properties of luminescent polymers and polymer light-emitting electrochemical cells
Y Li, Y Cao, J Gao, D Wang, G Yu, AJ Heeger
Synthetic Metals 99 (3), 243-248, 1999
Gallium nitride-based nanowire radial heterostructures for nanophotonics
F Qian, Y Li, S Gradecak, D Wang, CJ Barrelet, CM Lieber
Nano letters 4 (10), 1975-1979, 2004
Nanowire crossbar arrays as address decoders for integrated nanosystems
Z Zhong, D Wang, Y Cui, MW Bockrath, CM Lieber
science 302 (5649), 1377-1379, 2003
Nanoscale wires and related devices
CM Lieber, X Duan, Y Cui, Y Huang, M Gudiksen, LJ Lauhon, J Wang, ...
US Patent 7,301,199, 2007
Novel electroluminescent conjugated polyelectrolytes based on polyfluorene
F Huang, H Wu, D Wang, W Yang, Y Cao
Chemistry of Materials 16 (4), 708-716, 2004
Synthesis of p-type gallium nitride nanowires for electronic and photonic nanodevices
Z Zhong, F Qian, D Wang, CM Lieber
Nano Letters 3 (3), 343-346, 2003
Rational synthesis of p-type zinc oxide nanowire arrays using simple chemical vapor deposition
B Xiang, P Wang, X Zhang, SA Dayeh, DPR Aplin, C Soci, D Yu, D Wang
Nano letters 7 (2), 323-328, 2007
Rational growth of branched and hyperbranched nanowire structures
D Wang, F Qian, C Yang, Z Zhong, CM Lieber
Nano Letters 4 (5), 871-874, 2004
Nanowire photodetectors
C Soci, A Zhang, XY Bao, H Kim, Y Lo, D Wang
Journal of nanoscience and nanotechnology 10 (3), 1430-1449, 2010
Efficient electron injection from a bilayer cathode consisting of aluminum and alcohol-/water-soluble conjugated polymers
H Wu, F Huang, Y Mo, W Yang, D Wang, J Peng, Y Cao
Advanced Materials 16 (20), 1826-1830, 2004
Enabling silicon for solar-fuel production
K Sun, S Shen, Y Liang, PE Burrows, SS Mao, D Wang
Chemical reviews 114 (17), 8662-8719, 2014
High electron mobility InAs nanowire field‐effect transistors
SA Dayeh, DPR Aplin, X Zhou, PKL Yu, ET Yu, D Wang
small 3 (2), 326-332, 2007
Biosensors from conjugated polyelectrolyte complexes
D Wang, X Gong, PS Heeger, F Rininsland, GC Bazan, AJ Heeger
Proceedings of the National Academy of Sciences 99 (1), 49-53, 2002
Direct heteroepitaxy of vertical InAs nanowires on Si substrates for broad band photovoltaics and photodetection
W Wei, XY Bao, C Soci, Y Ding, ZL Wang, D Wang
Nano letters 9 (8), 2926-2934, 2009
Photoluminescence of water-soluble conjugated polymers: Origin of enhanced quenching by charge transfer
J Wang, D Wang, EK Miller, D Moses, GC Bazan, AJ Heeger
Macromolecules 33 (14), 5153-5158, 2000
ZnO/CuO heterojunction branched nanowires for photoelectrochemical hydrogen generation
A Kargar, Y Jing, SJ Kim, CT Riley, X Pan, D Wang
Acs Nano 7 (12), 11112-11120, 2013
Precise semiconductor nanowire placement through dielectrophoresis
S Raychaudhuri, SA Dayeh, D Wang, ET Yu
Nano letters 9 (6), 2260-2266, 2009
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