Ping He
Ping He
College of Engineering and Applied Sciences, Nanjing University
Verified email at nju.edu.cn
TitleCited byYear
Raising the cycling stability of aqueous lithium-ion batteries by eliminating oxygen in the electrolyte
JY Luo, WJ Cui, P He, YY Xia
Nature chemistry 2 (9), 760-765, 2010
5652010
Nano active materials for lithium-ion batteries
Y Wang, H Li, P He, E Hosono, H Zhou
Nanoscale 2 (8), 1294-1305, 2010
4402010
Core–shell‐structured CNT@ RuO2 composite as a high‐performance cathode catalyst for rechargeable Li–O2 batteries
Z Jian, P Liu, F Li, P He, X Guo, M Chen, H Zhou
Angewandte Chemie International Edition 53 (2), 442-446, 2014
4142014
Preparation of mesocellular carbon foam and its application for lithium/oxygen battery
X Yang, P He, Y Xia
Electrochemistry Communications 11 (6), 1127-1130, 2009
3522009
Layered lithium transition metal oxide cathodes towards high energy lithium-ion batteries
P He, H Yu, H Zhou
Journal of Materials Chemistry 22 (9), 3680-3695, 2012
3102012
Olivine LiFePO 4: development and future
Y Wang, P He, H Zhou
Energy & Environmental Science 4 (3), 805-817, 2011
3032011
Critical Challenges in Rechargeable Aprotic Li–O2 Batteries
N Feng, P He, H Zhou
Advanced Energy Materials 6 (9), 1502303, 2016
2192016
High-energy ‘composite’layered manganese-rich cathode materials via controlling Li 2 MnO 3 phase activation for lithium-ion batteries
H Yu, H Kim, Y Wang, P He, D Asakura, Y Nakamura, H Zhou
Physical Chemistry Chemical Physics 14 (18), 6584-6595, 2012
2032012
The water catalysis at oxygen cathodes of lithium–oxygen cells
F Li, S Wu, T Zhang, P He, A Yamada, H Zhou
Nature communications 6 (1), 1-7, 2015
1572015
High-surface vanadium oxides with large capacities for lithium-ion batteries: from hydrated aerogel to nanocrystalline VO 2 (B), V 6 O 13 and V 2 O 5
H Li, P He, Y Wang, E Hosono, H Zhou
Journal of materials chemistry 21 (29), 10999-11009, 2011
1402011
Activated carbon with ultrahigh specific surface area synthesized from natural plant material for lithium–sulfur batteries
S Zhang, M Zheng, Z Lin, N Li, Y Liu, B Zhao, H Pang, J Cao, P He, Y Shi
Journal of Materials Chemistry A 2 (38), 15889-15896, 2014
1322014
A self-defense redox mediator for efficient lithium–O 2 batteries
T Zhang, K Liao, P He, H Zhou
Energy & Environmental Science 9 (3), 1024-1030, 2016
1272016
A Li-air fuel cell with recycle aqueous electrolyte for improved stability
P He, Y Wang, H Zhou
Electrochemistry Communications 12 (12), 1686-1689, 2010
1172010
Superior Performance of a Li–O2 Battery with Metallic RuO2 Hollow Spheres as the Carbon‐Free Cathode
F Li, DM Tang, T Zhang, K Liao, P He, D Golberg, A Yamada, H Zhou
Advanced Energy Materials 5 (13), 1500294, 2015
1122015
Li‐Redox Flow Batteries Based on Hybrid Electrolytes: At the Cross Road between Li‐ion and Redox Flow Batteries
Y Wang, P He, H Zhou
Advanced Energy Materials 2 (7), 770-779, 2012
1112012
A reversible lithium–CO 2 battery with Ru nanoparticles as a cathode catalyst
S Yang, Y Qiao, P He, Y Liu, Z Cheng, J Zhu, H Zhou
Energy & Environmental Science 10 (4), 972-978, 2017
1062017
The effect of oxygen vacancies on the structure and electrochemistry of LiTi2 (PO4) 3 for lithium-ion batteries: A combined experimental and theoretical study
JY Luo, LJ Chen, YJ Zhao, P He, YY Xia
Journal of Power Sources 194 (2), 1075-1080, 2009
1042009
Lithium-ion intercalation behavior of LiFePO4 in aqueous and nonaqueous electrolyte solutions
P He, X Zhang, YG Wang, L Cheng, YY Xia
Journal of the Electrochemical Society 155 (2), A144-A150, 2008
982008
Mesoporous NiO with a single-crystalline structure utilized as a noble metal-free catalyst for non-aqueous Li–O 2 batteries
S Tong, M Zheng, Y Lu, Z Lin, J Li, X Zhang, Y Shi, P He, H Zhou
Journal of Materials Chemistry A 3 (31), 16177-16182, 2015
952015
Enabling Catalytic Oxidation of Li2O2 at the Liquid–Solid Interface: The Evolution of an Aprotic Li–O2 Battery
N Feng, P He, H Zhou
ChemSusChem 8 (4), 600-602, 2015
942015
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Articles 1–20