Juan Antonio Zapien
Juan Antonio Zapien
ยืนยันอีเมลแล้วที่ cityu.edu.hk - หน้าแรก
High‐Density, ordered ultraviolet light‐emitting ZnO nanowire arrays
C Liu, JA Zapien, Y Yao, XM Meng, CS Lee, SS Fan, Y Lifshitz, ST Lee
Advanced materials 15 (10), 838-841, 2003
Raman spectroscopy of silicon nanowires
S Piscanec, M Cantoro, AC Ferrari, JA Zapien, Y Lifshitz, ST Lee, ...
Physical Review B 68 (24), 241312, 2003
Well‐Aligned ZnO Nanowire Arrays Fabricated on Silicon Substrates
C Geng, Y Jiang, Y Yao, X Meng, JA Zapien, CS Lee, Y Lifshitz, ST Lee
Advanced Functional Materials 14 (6), 589-594, 2004
p-type ZnO nanowire arrays
GD Yuan, WJ Zhang, JS Jie, X Fan, JA Zapien, YH Leung, LB Luo, ...
Nano letters 8 (8), 2591-2597, 2008
Silicon nanowires-based highly-efficient SERS-active platform for ultrasensitive DNA detection
Y He, S Su, T Xu, Y Zhong, JA Zapien, J Li, C Fan, ST Lee
Nano Today 6 (2), 122-130, 2011
Wavelength‐Controlled Lasing in ZnxCdxS Single‐Crystal Nanoribbons
Y Liu, JA Zapien, YY Shan, CY Geng, CS Lee, ST Lee
Advanced Materials 17 (11), 1372-1377, 2005
Vertically aligned ZnO nanorod arrays sentisized with gold nanoparticles for Schottky barrier photovoltaic cells
ZH Chen, YB Tang, CP Liu, YH Leung, GD Yuan, LM Chen, YQ Wang, ...
The Journal of Physical Chemistry C 113 (30), 13433-13437, 2009
Lasing in nanowires grown on anodic aluminum oxide templates
JX Ding, JA Zapien, WW Chen, Y Lifshitz, ST Lee, XM Meng
Applied physics letters 85 (12), 2361-2363, 2004
ZnO/Au composite nanoarrays as substrates for surface-enhanced Raman scattering detection
L Chen, L Luo, Z Chen, M Zhang, JA Zapien, CS Lee, ST Lee
The Journal of Physical Chemistry C 114 (1), 93-100, 2010
Single-site active iron-based bifunctional oxygen catalyst for a compressible and rechargeable Zinc–air battery
L Ma, S Chen, Z Pei, Y Huang, G Liang, F Mo, Q Yang, J Su, Y Gao, ...
ACS nano 12 (2), 1949-1958, 2018
Room-temperature single nanoribbon lasers
JA Zapien, Y Jiang, XM Meng, W Chen, FCK Au, Y Lifshitz, ST Lee
Applied physics letters 84 (7), 1189-1191, 2004
Initiating a mild aqueous electrolyte Co 3 O 4/Zn battery with 2.2 V-high voltage and 5000-cycle lifespan by a Co (III) rich-electrode
L Ma, S Chen, H Li, Z Ruan, Z Tang, Z Liu, Z Wang, Y Huang, Z Pei, ...
Energy & Environmental Science 11 (9), 2521-2530, 2018
A polyoxometalate-assisted electrochemical method for silicon nanostructures preparation: from quantum dots to nanowires
Z Kang, CHA Tsang, Z Zhang, M Zhang, N Wong, JA Zapien, Y Shan, ...
Journal of the American Chemical Society 129 (17), 5326-5327, 2007
Homoepitaxial growth and lasing properties of ZnS nanowire and nanoribbon arrays
Y Jiang, WJ Zhang, JS Jie, XM Meng, JA Zapien, ST Lee
Advanced Materials 18 (12), 1527-1532, 2006
High-quality nanoribbons with lasing cavity
YK Liu, JA Zapien, CY Geng, YY Shan, CS Lee, Y Lifshitz, ST Lee
Applied physics letters 85 (15), 3241-3243, 2004
Surface Engineering of ZnO Nanostructures for Semiconductor‐Sensitized Solar Cells
J Xu, Z Chen, JA Zapien, CS Lee, W Zhang
Advanced Materials 26 (31), 5337-5367, 2014
Synthesis, characterization, and photocatalytic application of different ZnO nanostructures in array configurations
Y Liu, ZH Kang, ZH Chen, I Shafiq, JA Zapien, I Bello, WJ Zhang, ST Lee
Crystal Growth and Design 9 (7), 3222-3227, 2009
Rapid Microwave Synthesis of Porous TiO2 Spheres and Their Applications in Dye-Sensitized Solar Cells
HE Wang, LX Zheng, CP Liu, YK Liu, CY Luan, H Cheng, YY Li, L Martinu, ...
The Journal of Physical Chemistry C 115 (21), 10419-10425, 2011
A high-efficiency surface-enhanced Raman scattering substrate based on silicon nanowires array decorated with silver nanoparticles
ML Zhang, X Fan, HW Zhou, MW Shao, JA Zapien, NB Wong, ST Lee
The Journal of Physical Chemistry C 114 (5), 1969-1975, 2010
Hydrothermal synthesis of ordered single-crystalline rutile nanorod arrays on different substrates
HE Wang, Z Chen, YH Leung, C Luan, C Liu, Y Tang, C Yan, W Zhang, ...
Applied Physics Letters 96 (26), 263104, 2010
ระบบไม่สามารถดำเนินการได้ในขณะนี้ โปรดลองใหม่อีกครั้งในภายหลัง
บทความ 1–20