|Nanoporous Ni(OH)2 Thin Film on 3D Ultrathin-Graphite Foam for Asymmetric Supercapacitor|
J Ji, LL Zhang, H Ji, Y Li, X Zhao, X Bai, X Fan, F Zhang, RS Ruoff
ACS nano 7 (7), 6237-6243, 2013
|Highly conductive and porous activated reduced graphene oxide films for high-power supercapacitors|
LL Zhang, X Zhao, MD Stoller, Y Zhu, H Ji, S Murali, Y Wu, S Perales, ...
Nano letters 12 (4), 1806-1812, 2012
|Capacitance of carbon-based electrical double-layer capacitors|
H Ji, X Zhao, Z Qiao, J Jung, Y Zhu, Y Lu, LL Zhang, AH MacDonald, ...
Nature communications 5 (1), 1-7, 2014
|Ultrathin graphite foam: a three-dimensional conductive network for battery electrodes|
H Ji, L Zhang, MT Pettes, H Li, S Chen, L Shi, R Piner, RS Ruoff
Nano letters 12 (5), 2446-2451, 2012
|Enhanced thermal conductivity of phase change materials with ultrathin-graphite foams for thermal energy storage|
H Ji, DP Sellan, MT Pettes, X Kong, J Ji, L Shi, RS Ruoff
Energy & Environmental Science 7 (3), 1185-1192, 2014
|Stretchable graphene: a close look at fundamental parameters through biaxial straining|
F Ding, H Ji, Y Chen, A Herklotz, K Dörr, Y Mei, A Rastelli, OG Schmidt
Nano letters 10 (9), 3453-3458, 2010
|Thermal transport in three-dimensional foam architectures of few-layer graphene and ultrathin graphite|
MT Pettes, H Ji, RS Ruoff, L Shi
Nano letters 12 (6), 2959-2964, 2012
|Cu‐Si Nanocable Arrays as High‐Rate Anode Materials for Lithium‐Ion Batteries|
FF Cao, JW Deng, S Xin, HX Ji, OG Schmidt, LJ Wan, YG Guo
Advanced materials 23 (38), 4415-4420, 2011
|Nitrogen doping of graphene and its effect on quantum capacitance, and a new insight on the enhanced capacitance of N-doped carbon|
LL Zhang, X Zhao, H Ji, MD Stoller, L Lai, S Murali, S Mcdonnell, ...
Energy & Environmental Science 5 (11), 9618-9625, 2012
|Graphene‐encapsulated Si on ultrathin‐graphite foam as anode for high capacity lithium‐ion batteries|
J Ji, H Ji, LL Zhang, X Zhao, X Bai, X Fan, F Zhang, RS Ruoff
Advanced Materials 25 (33), 4673-4677, 2013
|A hierarchical carbon derived from sponge‐templated activation of graphene oxide for high‐performance supercapacitor electrodes|
J Xu, Z Tan, W Zeng, G Chen, S Wu, Y Zhao, K Ni, Z Tao, M Ikram, H Ji, ...
Advanced Materials 28 (26), 5222-5228, 2016
|Millimeter‐size single‐crystal graphene by suppressing evaporative loss of Cu during low pressure chemical vapor deposition|
S Chen, H Ji, H Chou, Q Li, H Li, JW Suk, R Piner, L Liao, W Cai, RS Ruoff
Advanced Materials 25 (14), 2062-2065, 2013
|Cobalt in nitrogen-doped graphene as single-atom catalyst for high-sulfur content lithium–sulfur batteries|
Z Du, X Chen, W Hu, C Chuang, S Xie, A Hu, W Yan, X Kong, X Wu, H Ji, ...
Journal of the American Chemical Society 141 (9), 3977-3985, 2019
|Low-temperature chemical vapor deposition growth of graphene from toluene on electropolished copper foils|
B Zhang, WH Lee, R Piner, I Kholmanov, Y Wu, H Li, H Ji, RS Ruoff
ACS nano 6 (3), 2471-2476, 2012
|Black phosphorus revisited: a missing metal‐free elemental photocatalyst for visible light hydrogen evolution|
X Zhu, T Zhang, Z Sun, H Chen, J Guan, X Chen, H Ji, P Du, S Yang
Advanced Materials 29 (17), 1605776, 2017
|Naturally rolled‐up C/Si/C trilayer nanomembranes as stable anodes for lithium‐ion batteries with remarkable cycling performance|
J Deng, H Ji, C Yan, J Zhang, W Si, S Baunack, S Oswald, Y Mei, ...
Angewandte Chemie 125 (8), 2382-2386, 2013
|A highly efficient metal‐free oxygen reduction electrocatalyst assembled from carbon nanotubes and graphene|
J Yang, H Sun, H Liang, H Ji, L Song, C Gao, H Xu
Advanced Materials 28 (23), 4606-4613, 2016
|Growth mechanism and controlled synthesis of AB-stacked bilayer graphene on Cu–Ni alloy foils|
Y Wu, H Chou, H Ji, Q Wu, S Chen, W Jiang, Y Hao, J Kang, Y Ren, ...
Acs Nano 6 (9), 7731-7738, 2012
|Crystalline copper phosphide nanosheets as an efficient janus catalyst for overall water splitting|
A Han, H Zhang, R Yuan, H Ji, P Du
ACS applied materials & interfaces 9 (3), 2240-2248, 2017
|Covalently connected carbon nanostructures for current collectors in both the cathode and anode of Li–S batteries|
S Jin, S Xin, L Wang, Z Du, L Cao, J Chen, X Kong, M Gong, J Lu, Y Zhu, ...
Advanced Materials 28 (41), 9094-9102, 2016