Xianfeng Gao
Cited by
Cited by
CdS quantum dots sensitized TiO2 nanotube-array photoelectrodes
WT Sun, Y Yu, HY Pan, XF Gao, Q Chen, LM Peng
Journal of the American Chemical Society 130 (4), 1124-1125, 2008
CdTe Quantum Dots-Sensitized TiO2 Nanotube Array Photoelectrodes
XF Gao, HB Li, WT Sun, Q Chen, FQ Tang, LM Peng
The Journal of Physical Chemistry C 113 (18), 7531-7535, 2009
An Efficient Method To Form Heterojunction CdS/TiO2 Photoelectrodes Using Highly Ordered TiO2 Nanotube Array Films
XF Gao, WT Sun, ZD Hu, G Ai, YL Zhang, S Feng, F Li, LM Peng
The Journal of Physical Chemistry C 113 (47), 20481-20485, 2009
Life cycle assessment of lithium sulfur battery for electric vehicles
Y Deng, J Li, T Li, X Gao, C Yuan
Journal of Power Sources 343, 284-295, 2017
Life cycle environmental impact of high-capacity lithium ion battery with silicon nanowires anode for electric vehicles
B Li, X Gao, J Li, C Yuan
Environmental science & technology 48 (5), 3047-3055, 2014
Enhanced photovoltaic performance of perovskite CH 3 NH 3 PbI 3 solar cells with freestanding TiO 2 nanotube array films
X Gao, J Li, J Baker, Y Hou, D Guan, J Chen, C Yuan
Chemical Communications, 6368-6371, 2014
A three-dimensionally interconnected carbon nanotube/layered MoS2 nanohybrid network for lithium ion battery anode with superior rate capacity and long-cycle-life
J Li, Y Hou, X Gao, D Guan, Y Xie, J Chen, C Yuan
Nano Energy 16, 10-18, 2015
Life cycle assessment of titania perovskite solar cell technology for sustainable design and manufacturing
J Zhang, X Gao, Y Deng, B Li, C Yuan
ChemSusChem 8 (22), 3882-3891, 2015
Comparison of life cycle environmental impacts of different perovskite solar cell systems
J Zhang, X Gao, Y Deng, Y Zha, C Yuan
Solar Energy Materials and Solar Cells 166, 9-17, 2017
3D dual-confined sulfur encapsulated in porous carbon nanosheets and wrapped with graphene aerogels as a cathode for advanced lithium sulfur batteries
Y Hou, J Li, X Gao, Z Wen, C Yuan, J Chen
Nanoscale 8 (15), 8228-8235, 2016
A Multilayered Silicon-Reduced Graphene Oxide Electrode for High Performance Lithium-Ion Batteries
X Gao, J Li, Y Xie, D Guan, C Yuan
ACS Appl. Mater. Interfaces, 2015
A scalable graphene sulfur composite synthesis for rechargeable lithium batteries with good capacity and excellent columbic efficiency
X Gao, J Li, D Guan, C Yuan
ACS applied materials & interfaces 6 (6), 4154-4159, 2014
Photoelectric performance of TiO nanotube array photoelectrodes cosensitized with CdS/CdSe quantum dots
XF Gao, WT Sun, G Ai, LM Peng
Applied Physics Letters 96, 153104, 2010
Controllable synthesis of MoO3-deposited TiO2 nanotubes with enhanced lithium-ion intercalation performance
D Guan, J Li, X Gao, C Yuan
Journal of Power Sources 246, 305-312, 2014
Free standing TiO 2 nanotube array electrodes with an ultra-thin Al 2 O 3 barrier layer and TiCl 4 surface modification for highly efficient dye sensitized solar cells
X Gao, D Guan, J Huo, J Chen, C Yuan
Nanoscale 5 (21), 10438-10446, 2013
Enhanced capacitive performance of TiO2 nanotubes with molybdenum oxide coating
D Guan, X Gao, J Li, C Yuan
Applied surface science 300, 165-170, 2014
Growth characteristics and influencing factors of 3D hierarchical flower-like SnS2 nanostructures and their superior lithium-ion intercalation performance
D Guan, J Li, X Gao, Y Xie, C Yuan
Journal of Alloys and Compounds 658, 190-197, 2016
Real-time detection of mercury ions in water using a reduced graphene oxide/DNA field-effect transistor with assistance of a passivation layer
J Chang, G Zhou, X Gao, S Mao, S Cui, LE Ocola, C Yuan, J Chen
Sensing and bio-sensing research 5, 97-104, 2015
Hybrid CdSe/TiO 2 nanowire photoelectrodes: fabrication and photoelectric performance
G Ai, W Sun, X Gao, Y Zhang, LM Peng
Journal of Materials Chemistry 21 (24), 8749-8755, 2011
A TiO 2 nanotube network electron transport layer for high efficiency perovskite solar cells
X Gao, J Li, S Gollon, M Qiu, D Guan, X Guo, J Chen, C Yuan
Physical Chemistry Chemical Physics 19 (7), 4956-4961, 2017
The system can't perform the operation now. Try again later.
Articles 1–20