Publications

Representative papers

2021

1: Pyrolyzed M-N-x catalysts for oxygen reduction reaction: progress and prospects
ENERG ENVIRON SCI. 2021, 14(4): 2158-2185.
影响因子：30.289
Ergui Luo. Yuyi Chu. Jie Liu. Zhaoping Shi. Siyuan Zhu. Liyuan Gong. Junjie Ge*. Choi, Chang Hyuck*. Changpeng Liu*. Wei Xing*.

2: Ni-based layered double hydroxide catalysts for oxygen evolution reaction
MATER TODAY PHYS. 2021, 16: 100292.
影响因子：10.443
Liting Yang. Zong Liu. Siyuan Zhu. Ligang Feng*. Wei Xing*.

3: Fe, Cu-codoped metal-nitrogen-carbon catalysts with high selectivity and stability for the oxygen reduction reaction
CHINESE CHEM LETT. 2021, 32(1): 506-510.
影响因子：4.632
Yuemin Wang. Ergui Luo. Xian Wang. Qinglei Meng. Junjie Ge*. Changpeng Liu*. Wei Xing*.

2020

4: Preferentially Engineering FeN4 Edge Sites onto Graphitic Nanosheets for Highly Active and Durable Oxygen Electrocatalysis in Rechargeable Zn-Air Batteries
ADV MATER. 2020, 32(49): 2004900.
影响因子：27.398
Meiling Xiao. Xing, Zihao. Zhao Jin. Changpeng Liu. Junjie Ge. Jianbing Zhu*. Ying Wang*. Xiao Zhao*. Chen, Zhongwei*.

5: Bridge Bonded Oxygen Ligands between Approximated FeN4 Sites Confer Catalysts with High ORR Performance
ANGEW CHEM INT EDIT. 2020, 59(33): 13923-13928.
影响因子：12.959
Liyuan Gong①. Zhang, Hao①. Ying Wang①. Ergui Luo. Kui Li. Liqin Gao. Yuemin Wang. Zhijian Wu. Zhao Jin. Junjie Ge*. Jiang, Zheng*. Changpeng Liu*. Wei Xing*.

6: Reactant friendly hydrogen evolution interface based on di-anionic MoS2 surface
NAT COMMUN. 2020, 11(1): 1116.
影响因子：12.121
Zhaoyan Luo. Zhang, Hao. Yang, Yuqi. Xian Wang. Yang Li. Zhao Jin. Jiang, Zheng*. Changpeng Liu. Wei Xing. Junjie Ge*.

7: Stabilized Pt Cluster-Based Catalysts Used as Low-Loading Cathode in Proton-Exchange Membrane Fuel Cells
ACS ENERGY LETT. 2020, 5(9): 3021-3028.
影响因子：19.003
Siyuan Zhu. Xian Wang. Ergui Luo. Yang, Liting. Chu, Yuyi. Liqin Gao. Zhao Jin*. Changpeng Liu. Junjie Ge*. Wei Xing*.

8: Sea urchin-like Au-core@Pd-shell electrocatalysts with high FAOR performance: Coefficient of lattice strain and electrochemical surface area
APPL CATAL B-ENVIRON. 2020, 260: 118200.
影响因子：16.683
Long Yang. Guoqiang Li. Chang, Jingfa. Junjie Ge. Changpeng Liu. Vladimir, Fateev. Wang, Guiling. Zhao Jin. Wei Xing*.

9: Construction and Regulation of a Surface Protophilic Environment to Enhance Oxygen Reduction Reaction Electrocatalytic Activity
ACS APPL MATER INTER. 2020, 12(37): 41269-41276.
影响因子：8.758
Jie Liu. Rongpeng Ma. Chu, Yuyi. Nanxing Gao. Zhao Jin*. Junjie Ge*. Changpeng Liu. Wei Xing*.

10: Accelerated oxygen reduction on Fe/N/C catalysts derived from precisely-designed ZIF precursors
NANO RES. 2020, 13(9): 2420-2426.
影响因子：8.183
Ergui Luo. Chen Wang. Yang Li. Xian Wang. Liyuan Gong. Tuo Zhao. Zhao Jin. Junjie Ge*. Changpeng Liu*. Wei Xing*.

11: Regulating the pore structure and oxygen vacancies of cobaltosic oxide hollow dodecahedra for an enhanced oxygen evolution reaction
NPG ASIA MATER. 2020, 12(1): 73.
影响因子：8.131
Yao Xiao. Yibo Wang. Meiling Xiao. Changpeng Liu. Shuai Hou*. Junjie Ge*. Wei Xing*.

12: Surface interaction between Pd and nitrogen derived from hyperbranched polyamide towards highly effective formic acid dehydrogenation
J ENERGY CHEM. 2020, 40: 212-216.
影响因子：7.216
Yancun Yu. Xian Wang. Changpeng Liu. Vladimir, Fateev. Junjie Ge*. Wei Xing*.

13: Engineering the HER catalytic behavior of heteroatom-doped molybdenum disulfide via versatile partial cation exchange
J ENERGY CHEM. 2020, 41: 15-19.
影响因子：7.216
Zhaoyan Luo. Junjie Ge*. Changpeng Liu. Wei Xing*.

14: Fundamental understanding of the acidic oxygen evolution reaction: mechanism study and state-of-the-art catalysts
NANOSCALE. 2020, 12(25): 13249-13275.
影响因子：6.895
Shi, Zhaoping. Xian Wang. Junjie Ge*. Changpeng Liu*. Wei Xing*.

15: Synergistic engineering of MoS2 via dual-metal doping strategy towards hydrogen evolution reaction
APPL SURF SCI. 2020, 529: 147117.
影响因子：6.182
Dongchen Han. Zhaoyan Luo. Yang Li. Nanxing Gao. Junjie Ge*. Changpeng Liu*. Wei Xing*.

16: Activating the Pd-Based catalysts via tailoring reaction interface towards formic acid dehydrogenation
INT J HYDROGEN ENERG. 2020, 45(35): 17575-17582.
影响因子：4.939
Nanxing Gao. Rongpeng Ma. Xian Wang. Zhao Jin. Shuai Hou. Weilin Xu. Qinglei Meng. Junjie Ge*. Changpeng Liu. Wei Xing*.

17: Enhancement of Performance of Fe-N-C Catalysts by Copper and Sulfur Doping for the Oxygen Reduction Reaction
CHEM J CHINESE U. 2020, 41(8): 1843-1849.
影响因子：0.576
Yuemin Wang. Qinglei Meng. Xian Wang. Junjie Ge. Changpeng Liu*. Wei Xing*.

2019

18: Climbing the Apex of the ORR Volcano Plot via Binuclear Site Construction: Electronic and Geometric Engineering
J AM CHEM SOC. 2019, 141(44): 17763-17770.
影响因子：14.612
Meiling Xiao. Chen, Yongting. Jianbing Zhu. Zhang, Hao. Xiao Zhao. Liqin Gao. Xian Wang. Zhao, Jin. Junjie Ge*. Jiang, Zheng*. Chen, Shengli*. Changpeng Liu. Wei Xing*.

19: Engineering Energy Level of Metal Center: Ru Single-Atom Site for Efficient and Durable Oxygen Reduction Catalysis
J AM CHEM SOC. 2019, 141: 19800-19806.
影响因子：14.612
Meiling Xiao①. Liqin Gao①. Ying Wang①. Xian Wang. Jianbing Zhu. Zhao Jin. Changpeng Liu. Chen, Hengquan. Li, Gaoran. Junjie Ge*. He, Qinggang*. Zhijian Wu. Chen, Zhongwei*. Wei Xing*.

20: Single-Atom Cr@N4 Sites Designed for Durable Oxygen Reduction Catalysis in Acid Media
ANGEW CHEM INT EDIT. 2019, 58: 12469-12475.
影响因子：12.959
Ergui Luo①. Zhang, Hao①. Xian Wang. Liqin Gao. Liyuan Gong. Tuo Zhao. Zhao Jin. Junjie Ge*. Jiang, Zheng*. Changpeng Liu*. Wei Xing*.

21: Simultaneously Engineering Electron Conductivity, Site Density and Intrinsic Activity of MoS2 via the Cation and Anion Codoping Strategy
ACS APPL MATER INTER. 2019, 11(43): 39782-39788.
影响因子：8.758
Zhaoyan Luo①. Ying Wang①. Xian Wang. Zhao Jin*. Zhijian Wu. Junjie Ge*. Changpeng Liu. Wei Xing*.

22: Mass transport in anode gas diffusion layer of direct methanol fuel cell derived from compression effect
J POWER SOURCES. 2019, 427: 120-128.
影响因子：8.247
Guangrong Deng. Liang Liang. Chenyang Li. Junjie Ge. Changpeng Liu*. Zhao Jin*. Wei Xing*.

23: Low-temperature synthesis of nitrogen doped carbon nanotubes as promising catalyst support for methanol oxidation
J ENERGY CHEM. 2019, 28: 118-122.
影响因子：7.216
Liang Liang. Meiling Xiao. Jianbing Zhu. Junjie Ge*. Changpeng Liu*. Wei Xing*.

24: Hydrogen etching induced hierarchical meso/micro-pore structure with increased active density to boost ORR performance of Fe-N-C catalyst
J ENERGY CHEM. 2019, 35: 17-23.
影响因子：7.216
Liqin Gao. Meiling Xiao. Zhao Jin*. Changpeng Liu. Junjie Ge*. Wei Xing*.

25: Highly active PtAu alloy surface towards selective formic acid electrooxidation
J ENERGY CHEM. 2019, 37: 157-162.
影响因子：7.216
Liang Liang. Vladimir, Fateev. Junjie Ge*. Changpeng Liu*. Wei Xing*.

26: Metal organic framework derived nitrogen-doped carbon anchored palladium nanoparticles for ambient temperature formic acid decomposition
INT J HYDROGEN ENERG. 2019, 44(53): 28402-28408.
影响因子：4.939
Xian Wang. Qinglei Meng. Liqin Gao. Jie Liu. Junjie Ge*. Changpeng Liu*. Wei Xing*.

27: Recent advances in active sites identification and regulation of M-N/C electro-catalysts towards ORR
SCI CHINA CHEM. 2019, 62(6): 669-683.
影响因子：6.356
Jie Liu. Zhao Jin. Xian Wang. Junjie Ge*. Changpeng Liu*. Wei Xing*.

28: Promoted Formic Acid Electrooxidation Using PdNx/C Catalyst Prepared with Hyperbranched Polymer
CHEM J CHINESE U. 2019, 40(7): 1433-1438.
影响因子：0.576
Yancun Yu. Xian Wang. Junjie Ge. Changpeng Liu. Wei Xing*.

2018

29: Chemically activating MoS₂ via spontaneous atomic palladium interfacial doping towards efficient hydrogen evolution
NAT COMMUN. 2018, 9: 2120.
影响因子：12.121
Zhaoyan Luo. Ouyang, Yixin. Zhang, Hao. Meiling Xiao. Junjie Ge*. Jiang, Zheng*. Wang, Jinlan*. Tang, Daiming. Cao, Xinzhong. Changpeng Liu. Wei Xing*.

30: Enhanced electrocatalytic performance for the hydrogen evolution reaction through surface enrichment of platinum nanoclusters alloying with ruthenium in situ embedded in carbon
ENERG ENVIRON SCI. 2018, 11(5): 1232-1239.
影响因子：30.289
Kui Li. Yang Li. Yuemin Wang. Junjie Ge*. Changpeng Liu*. Wei Xing*.

31: Identification of binuclear Co₂N₅ active sites for oxygen reduction reaction with more than one magnitude higher activity than single atom CoN₄ site
NANO ENERGY. 2018, 46: 396-403.
影响因子：16.602
Meiling Xiao. Zhang, Hao. Chen, Yongting. Jianbing Zhu. Liqin Gao. Zhao Jin. Junjie Ge*. Jiang, Zheng*. Chen, Shengli*. Changpeng Liu. Wei Xing*.

32: Highly polarized carbon nano-architecture as robust metal-free catalyst for oxygen reduction in polymer electrolyte membrane fuel cells
NANO ENERGY. 2018, 49: 23-30.
影响因子：16.602
Jianbing Zhu. Meiling Xiao. Ping Song. Fu, Jing. Zhao Jin. Liang Ma*. Junjie Ge*. Changpeng Liu. Chen, Zhongwei*. Wei Xing*.

33: Microporous Framework Induced Synthesis of Single-Atom Dispersed Fe-N-C Acidic ORR Catalyst and Its in Situ Reduced Fe-N-4 Active Site Identification Revealed by X-ray Absorption Spectroscopy
ACS CATAL. 2018, 8(4): 2824-2832.
影响因子：12.350
Meiling Xiao. Jianbing Zhu. Liang Ma. Zhao Jin. Junjie Ge*. Deng, Xin. Hou, Yang. He, Qinggang*. Li, Jingkun. Jia, Qingying. Mukerjee, Sanjeev. Yang, Ruoou. Jiang, Zheng. Su, Dangsheng. Changpeng Liu. Wei Xing*.

34: Cobalt phosphosulfide in the tetragonal phase: a highly active and durable catalyst for the hydrogen evolution reaction
J MATER CHEM A. 2018, 6(26): 12353-12360.
影响因子：11.301
Jinfa Chang. Ouyang, Yixin. Junjie Ge*. Wang, Jinlan*. Changpeng Liu. Wei Xing*.

35: TePbPt alloy nanotube as electrocatalyst with enhanced performance towards methanol oxidation reaction
J MATER CHEM A. 2018, 6(35): 16798-16803.
影响因子：11.301
Long Yang. Guoqiang Li. Junjie Ge. Changpeng Liu. Zhao Jin*. Wang, Guiling. Wei Xing*.

36: Enhancing mass transport in direct methanol fuel cell by optimizing the microstructure of anode microporous layer
AICHE J. 2018, 64(9): 3519-3528.
影响因子：3.519
Guangrong Deng. Liang Liang. Zhao Jin. Chenyang Li. Changpeng Liu*. Junjie Ge*. Wei Xing*.

37: Sulfur-Doped Nickel Phosphide Nanoplates Arrays: A Monolithic Electrocatalyst for Efficient Hydrogen Evolution Reactions
ACS APPL MATER INTER. 2018, 10(31): 26303-26311.
影响因子：8.758
Jinfa Chang. Kai Li. Zhijian Wu. Junjie Ge. Changpeng Liu. Wei Xing*.

38: Boosted Performance of Ir Species by Employing TiN as the Support toward Oxygen Evolution Reaction
ACS APPL MATER INTER. 2018, 10(44): 38117-38124.
影响因子：8.758
Guoqiang Li. Kai Li. Long Yang. Jinfa Chang. Rongpeng Ma. Zhijian Wu. Junjie Ge*. Changpeng Liu. Wei Xing*.

39: Recent development of methanol electrooxidation catalysts for direct methanol fuel cell
J ENERGY CHEM. 2018, 27(6): 1618-1628.
影响因子：7.216
Liyuan Gong. Zhiyuan Yang. Kui Li. Wei Xing*. Changpeng Liu*. Junjie Ge*.

40: Correlating Fe source with Fe-N-C active site construction: Guidance for rational design of high-performance ORR catalyst
J ENERGY CHEM. 2018, 27(6): 1668-1673.
影响因子：7.216
Liqin Gao. Meiling Xiao. Zhao Jin. Changpeng Liu. Jianbing Zhu. Junjie Ge*. Wei Xing*.

41: Recent progress in hydrogen production from formic acid decomposition
INT J HYDROGEN ENERG. 2018, 43(14): 7055-7071.
影响因子：4.939
Xian Wang. Qinglei Meng. Liqin Gao. Zhao Jin. Junjie Ge*. Changpeng Liu. Wei Xing*.

42: Structural Advantage Induced by Sulfur to Boost the Catalytic Performance of FeNC Catalyst towards the Oxygen Reduction Reaction
CHEMCATCHEM. 2018, 10(17): 3653-3658.
影响因子：4.853
Ergui Luo. Meiling Xiao. Yuemin Wang. Junjie Ge*. Changpeng Liu*. Wei Xing*.

43: Pd-PdO Interface as Active Site for HCOOH Selective Dehydrogenation at Ambient Condition
J PHYS CHEM C. 2018, 122(4): 2081-2088.
影响因子：4.189
Qing Lv. Qinglei Meng. Liu, Weiwei. Na Sun. Jiang, Kun. Lipo Ma. Zhangquan Peng. Cai, Wenbin. Changpeng Liu. Junjie Ge*. Liu, Limin*. Wei Xing*.

2017

44: Core-shell structured Ni₁₂P₅/Ni₃(PO₄)₂ hollow spheres as difunctional and efficient electrocatalysts for overall water electrolysis
APPL CATAL B-ENVIRON. 2017, 204: 486-496.
影响因子：16.683
Jinfa Chang. Qing Lv. Guoqiang Li. Junjie Ge. Changpeng Liu*. Wei Xing*.

45: Discontinuously covered IrO2-RuO2@Ru electrocatalysts for the oxygen evolution reaction: how high activity and long-term durability can be simultaneously realized in the synergistic and hybrid nano-structure
J MATER CHEM A. 2017, 5(33): 17221-17229.
影响因子：11.301
Guoqiang Li. Li, Songtao. Junjie Ge*. Changpeng Liu. Wei Xing*.

46: Platinum nanoparticles partially-embedded into carbon sphere surfaces: a low metal-loading anode catalyst with superior performance for direct methanol fuel cells
J MATER CHEM A. 2017, 5(37): 19857-19865.
影响因子：11.301
Kui Li. Zhao Jin. Junjie Ge*. Changpeng Liu*. Wei Xing*.

47: Selectively doping pyridinic and pyrrolic nitrogen into a 3D porous carbon matrix through template-induced edge engineering: enhanced catalytic activity towards the oxygen reduction reaction
J MATER CHEM A. 2017, 5(41): 21709-21714.
影响因子：11.301
Ergui Luo. Meiling Xiao. Junjie Ge*. Changpeng Liu*. Wei Xing*.

48: Micro-Membrane Electrode Assembly Design to Precisely Measure the in Situ Activity of Oxygen Reduction Reaction Electrocatalysts for PEMFC
ANAL CHEM. 2017, 89(12): 6309-6313.
影响因子：6.785
Zhi Long. Li, Yankai. Guangrong Deng. Changpeng Liu. Junjie Ge*. Ma, Shuhua*. Wei Xing.

49: Nanoporous IrO2 catalyst with enhanced activity and durability for water oxidation owing to its micro/mesoporous structure
NANOSCALE. 2017, 9(27): 9291-9298.
影响因子：6.895
Guoqiang Li. Li, Songtao. Meiling Xiao. Junjie Ge*. Changpeng Liu. Wei Xing*.

50: Advanced architecture carbon with in-situ embedded ultrafine titanium dioxide as outstanding support material for platinum catalysts towards methanol electrooxidation
ELECTROCHIM ACTA. 2017, 235: 508-518.
影响因子：6.215
Kui Li. Meiling Xiao. Zhao Jin. Jianbing Zhu. Junjie Ge*. Changpeng Liu*. Wei Xing.

51: Advanced architecture carbon with in-situ embedded ultrafine titanium dioxide as outstanding support material for platinum catalysts towards methanol electrooxidation
ELECTROCHIM ACTA. 2017, 235: 508-518.
影响因子：6.901
Kui Li. Meiling Xiao. Zhao Jin. Jianbing Zhu. Junjie Ge*. Changpeng Liu*. Wei Xing.

52: Nitrogen-doped carbon black supported Pd nanoparticles as an effective catalyst for formic acid electro-oxidation reaction
FRONT ENERGY. 2017, 11(3): 310-317.
影响因子：2.709
Na Sun. Minglei Wang. Jinfa Chang. Junjie Ge*. Wei Xing*. Shao, Guangjie.

2016

53: Metal-Organic Framework-Induced Synthesis of Ultrasmall Encased NiFe Nanoparticles Coupling with Graphene as an Efficient Oxygen Electrode for a Rechargeable Zn-Air Battery
ACS CATAL. 2016, 6(10): 6335-6342.
影响因子：13.084
Jianbing Zhu. Meiling Xiao. Yelong Zhang. Zhao Jin. Zhangquan Peng. Changpeng Liu. Chen, Shengli. Junjie Ge*. Wei Xing*.

54: Significantly enhanced oxygen reduction reaction performance of N-doped carbon by heterogeneous sulfur incorporation: synergistic effect between the two dopants in metal-free catalysts
J MATER CHEM A. 2016, 4(19): 7422-7429.
影响因子：12.732
Jianbing Zhu①. Kai Li①. Meiling Xiao. Changpeng Liu. Zhijian Wu. Junjie Ge*. Wei Xing*.

55: Monocrystalline Ni₁₂P₅ hollow spheres with ultrahigh specific surface areas as advanced electrocatalysts for the hydrogen evolution reaction
J MATER CHEM A. 2016, 4(25): 9755-9759.
影响因子：12.732
Jinfa Chang. Li, Songtao. Guoqiang Li. Junjie Ge*. Changpeng Liu. Wei Xing*.

56: Pt-CoP/C as an alternative PtRu/C catalyst for direct methanol fuel cells
J MATER CHEM A. 2016, 4(47): 18607-18613.
影响因子：12.732
Jinfa Chang. Ligang Feng*. Jiang, Kun. Xue, Huaiguo. Cai, Wen-Bin*. Changpeng Liu. Wei Xing*.

57: Ultrathin cobalt phosphide nanosheets as efficient bifunctional catalysts for a water electrolysis cell and the origin for cell performance degradation
GREEN CHEM. 2016, 18(8): 2287-2295.
影响因子：10.182
Jinfa Chang. Liang Liang. Chenyang Li. Minglei Wang. Junjie Ge. Changpeng Liu*. Wei Xing*.

58: TiO₂ inserted carbon materials with fine-tuned pore structure as effective model supports for electrocatalysts of fuel cells
CARBON. 2016, 98(1): 126-137.
影响因子：9.594
Qing Lv. Kui Li. Changpeng Liu. Junjie Ge*. Wei Xing*.

59: Active Pt₃Ni (111) Surface of Pt₃Ni Icosahedron for Oxygen Reduction
ACS APPL MATER INTER. 2016, 8(44): 30066-30071.
影响因子：9.229
Jianbing Zhu. Meiling Xiao. Kui Li. Changpeng Liu. Xiao Zhao*. Wei Xing*.

60: Cathode catalytic dependency behavior on ionomer content in direct methanol fuel cells
CHINESE J CATAL. 2016, 37(7): 988-993.
影响因子：8.271
Long, Zhi. Guangrong Deng. Changpeng Liu. Junjie Ge. Wei Xing*. Shuhua Ma*.

61: Nitrogen, Iron-codoped Mesoporous Carbon with bimodal-pores as an Efficient Catalyst for the Oxygen Reduction Reaction
ELECTROCHIM ACTA. 2016, 209: 551-556.
影响因子：6.901
Yao Xiao. Junjie Ge. Meiling Xiao. Fateev, Vladimir. Changpeng Liu. Wei Xing*.

62: Recent Progress of Non-Noble Metal Catalysts in Water Electrolysis for Hydrogen Production
ACTA PHYS-CHIM SIN. 2016, 32(7): 1556-1592.
影响因子：2.268
Jinfa Chang. Yao Xiao. Zhaoyan Luo. Junjie Ge. Changpeng Liu*. Wei Xing*.

2015

63: Meso/Macroporous Nitrogen-Doped Carbon Architectures with Iron Carbide Encapsulated in Graphitic Layers as an Efficient and Robust Catalyst for the Oxygen Reduction Reaction in Both Acidic and Alkaline Solutions
ADV MATER. 2015, 27(15): 2521-2527.
影响因子：30.849
Meiling Xiao. Jianbing Zhu. Ligang Feng*. Changpeng Liu. Wei Xing*.

64: Strongly coupled Pt nanotubes/N-doped graphene as highly active and durable electrocatalysts for oxygen reduction reaction
NANO ENERGY. 2015, 13(7): 318-326.
影响因子：17.881
Jianbing Zhu. Meiling Xiao. Xiao Zhao. Changpeng Liu. Junjie Ge*. Wei Xing*.

65: Nanostructured PtRu/C catalyst promoted by CoP as an efficient and robust anode catalyst in direct methanol fuel cells
NANO ENERGY. 2015, 15(10): 462-469.
影响因子：17.881
Ligang Feng*. Kui Li. Jinfa Chang. Changpeng Liu*. Wei Xing*.

66: Surface Oxidized Cobalt-Phosphide Nanorods As an Advanced Oxygen Evolution Catalyst in Alkaline Solution
ACS CATAL. 2015, 5(11): 6874-6878.
影响因子：13.084
Jinfa Chang. Yao Xiao. Meiling Xiao. Junjie Ge*. Changpeng Liu. Wei Xing*.

67: Growth mechanism and active site probing of Fe₃C@N-doped carbon nanotubes/C catalysts: guidance for building highly efficient oxygen reduction electrocatalysts
J MATER CHEM A. 2015, 3(43): 21451-21459.
影响因子：12.732
Jianbing Zhu. Meiling Xiao. Changpeng Liu. Junjie Ge*. St-Pierre, Jean*. Wei Xing*.

68: Superior electrocatalytic activity from nanodendritic structure consisting of a PtFe bimetallic core and Pt shell
CHEM COMMUN. 2015, 51(15): 3215-3218.
影响因子：6.222
Jianbing Zhu. Meiling Xiao. Kui Li. Changpeng Liu. Wei Xing*.

69: The enhancement effect of nitrogen, fluorine-codoped titanium dioxide on the carbon supported platinum nano-catalyst for methanol electrooxidation reaction
J POWER SOURCES. 2015, 278: 9-17.
影响因子：9.127
Guoqiang Li. Shikui Yao. Jianbing Zhu. Changpeng Liu. Wei Xing*.

70: The enhanced electrocatalytic activity and stability of supported Pt nanopartciles for methanol electro-oxidation through the optimized oxidation degree of carbon nanotubes
J POWER SOURCES. 2015, 281: 34-43.
影响因子：9.127
Meiling Xiao. Jianbing Zhu. Junjie Ge. Changpeng Liu. Wei Xing*.

71: Enhanced catalytic performance of carbon supported palladium nanoparticles by in-situ synthesis for formic acid electrooxidation
J POWER SOURCES. 2015, 284: 355-360.
影响因子：9.127
Shikui Yao. Guoqiang Li. Changpeng Liu*. Wei Xing*.

72: Titanium dioxide encapsulated in nitrogen-doped carbon enhances the activity and durability of platinum catalyst for Methanol electro-oxidation reaction
J POWER SOURCES. 2015, 292: 78-86.
影响因子：9.127
Jianbing Zhu. Meiling Xiao. Xiao Zhao. Changpeng Liu. Wei Xing*.

73: Ni₂P Makes Application of the PtRu Catalyst Much Stronger in Direct Methanol Fuel Cells
CHEMSUSCHEM. 2015, 8(19): 3340-3347.
影响因子：8.928
Jinfa Chang. Ligang Feng*. Changpeng Liu. Wei Xing*.

74: Rapid synthesis of a PtRu nano-sponge with different surface compositions and performance evaluation for methanol electrooxidation
NANOSCALE. 2015, 7(21): 9467-9471.
影响因子：7.790
Meiling Xiao. Ligang Feng. Jianbing Zhu. Changpeng Liu. Wei Xing*.

75: Promotional effect of phosphorus doping on the activity of the Fe-N/C catalyst for the oxygen reduction reaction
ELECTROCHIM ACTA. 2015, 155(5): 335-340.
影响因子：6.901
Yang Hu. Zhu, Jianbin. Qing Lv. Changpeng Liu. Li, Qingfeng*. Wei Xing*.

76: Magnetic coupled passive direct methanol fuel cell: Promoted CO₂ removal and enhanced catalyst utilization
FUEL. 2015, 139(2): 308-313.
影响因子：6.609
Wei Liu. Weiwei Cai. Changpeng Liu. Sun, Shimei*. Wei Xing*.

77: High-quality hydrogen generated from formic acid triggered by in situ prepared Pd/C catalyst for fuel cells
CATAL SCI TECHNOL. 2015, 5(5): 2581-2584.
影响因子：6.119
Qing Lv. Ligang Feng*. Hu, Chaoquan. Changpeng Liu. Wei Xing*.

78: NiCo₂O₄ 3 dimensional nanosheet as effective and robust catalyst for oxygen evolution reaction
RSC ADVANCES. 2015, 5(76): 61900-61905.
影响因子：3.361
Yao Xiao. Ligang Feng*. Hu, Chaoquan. Fateev, Vladimir. Changpeng Liu. Wei Xing*.

2014

79: An Effective Pd-Ni2P/C Anode Catalyst for Direct Formic Acid Fuel Cells
ANGEW CHEM INT EDIT. 2014, 53(1): 122-126.
影响因子：15.336
Jinfa Chang. Ligang Feng. Changpeng Liu. Wei Xing*. Hu, Xile*.

80: Ni₂P enhances the activity and durability of the Pt anode catalyst in direct methanol fuel cells
ENERG ENVIRON SCI. 2014, 7(5): 1628-1632.
影响因子：38.532
Jinfa Chang. Ligang Feng. Changpeng Liu. Wei Xing*. Hu, Xile*.

81: Biomass-derived N-doped carbon and its application in electrocatalysis
APPL CATAL B-ENVIRON. 2014, 154-155(1): 177-182.
影响因子：19.503
Xiao Zhao. Jianbing Zhu. Liang Liang. Chenyang Li. Changpeng Liu*. Jianhui Liao. Wei Xing*.

82: Nitrogen-doped carbon-graphene composites enhance the electrocatalytic performance of the supported Pt catalysts for methanol oxidation
CHEM COMMUN. 2014, 50(81): 12201-12203.
影响因子：6.222
Jianbing Zhu. Meiling Xiao. Xiao Zhao. Kui Li. Changpeng Liu. Wei Xing*.

83: The construction of nitrogen-doped graphitized carbon-TiO2 composite to improve the electrocatalyst for methanol oxidation
CARBON. 2014, 72: 114-124.
影响因子：9.594
Jianbing Zhu. Xiao Zhao. Meiling Xiao. Liang Liang. Changpeng Liu. Jianhui Liao. Wei Xing*.

84: Pd oxides/hydrous oxides as highly efficient catalyst for formic acid electrooxidation
J POWER SOURCES. 2014, 250(1): 128-133.
影响因子：9.127
Liang Yan. Shikui Yao. Jinfa Chang. Changpeng Liu*. Wei Xing*.

85: Enhancement of photovoltaic performance of photoelectrochemical biofuel cells by β-functionalized porphyrin sensitizers
J POWER SOURCES. 2014, 248(2): 660-667.
影响因子：9.127
Jing Yang. Wang, Bin. Yingfang Liu. Kunqi Wang. Wei Xing*. Changpeng Liu*.

86: Proton transfer in the interface of Nafion and sulfonated polypyrrolone
J POWER SOURCES. 2014, 258(1): 5-8.
影响因子：9.127
Yuwei Zhang. Zhiguang Zhang. Wei Chen. Changpeng Liu. Wei Xing*. Suobo Zhang.

87: Activity of Platinum/Carbon and Palladium/Carbon Catalysts Promoted by Ni₂P in Direct Ethanol Fuel Cells
CHEMSUSCHEM. 2014, 7(12): 3374-3381.
影响因子：8.928
Guoqiang Li. Ligang Feng. Jinfa Chang. Wickman, Bjorn. Gronbeck, Henrik. Changpeng Liu. Wei Xing*.

88: Reconstructed PtFe Alloy Nanoparticles with Bulk-Surface Differential Structure for Methanol Oxidation
ELECTROCHIM ACTA. 2014, 139(10): 61-68.
影响因子：6.901
Qing Lv. Yao Xiao. Min Yin. Junjie Ge*. Wei Xing*. Changpeng Liu.

89: Investigations of Pt modified Pd/C catalyst synthesized by one-pot galvanic replacement for formic acid electrooxidation
INT J HYDROGEN ENERG. 2014, 39(6): 2489-2496.
影响因子：5.816
Fengzhan Si. Junjie Ge. Chenyang Li. Liang Liang. Changpeng Liu*. Wei Xing*.

90: Enhanced Catalytic Performance of Composition-Tunable PtCu Nanowire Networks for Methanol Electrooxidation
CHEMCATCHEM. 2014, 6(10): 2825-2831.
影响因子：5.686
Meiling Xiao. Li, Songtao. Xiao Zhao. Jianbing Zhu. Min Yin. Changpeng Liu*. Wei Xing*.

91: Promotion of Mesoporous Vanadium Carbide Incorporated on Resorcinol-Formaldehyde Resin Carbon Composites with High-Surface-Areas on Platinum Catalysts for Methanol Electrooxidation
CHEMCATCHEM. 2014, 6(12): 3387-3395.
影响因子：5.686
Kui Li. Jianbing Zhu. Meiling Xiao. Xiao Zhao. Shikui Yao. Changpeng Liu*. Wei Xing*.

92: Preparation of Pt hollow nanotubes with adjustable diameters for methanol electrooxidation
RSC ADVANCES. 2014, 4(41): 21176-21179.
影响因子：3.361
Yao Xiao. Qing Lv. Jianbing Zhu. Shikui Yao. Changpeng Liu*. Wei Xing*.

93: Dispersion-controlled PtCu clusters synthesized with citric acid using galvanic displacement with high electrocatalytic activity toward methanol oxidation
RSC ADVANCES. 2014, 4(62): 32997-33000.
影响因子：3.361
Qing Lv. Jinfa Chang. Wei Xing*. Changpeng Liu*.

94: Pd@Pt/C catalysts fabricated using chemisorbed CO as in situ reductant: advanced catalytic behaviour for formic acid oxidation
RSC ADVANCES. 2014, 4(101): 57819-57822.
影响因子：3.361
Shikui Yao. Guoqiang Li. Meiling Xiao. Junjie Ge. Changpeng Liu*. Wei Xing*.

95: Highly Active PtAu Nanowire Networks for Formic Acid Oxidation
CHEMPLUSCHEM. 2014, 79(8): 1123-1128.
影响因子：2.863
Meiling Xiao. Li, Songtao. Jianbing Zhu. Kui Li. Changpeng Liu*. Wei Xing*.

2013

96: Surface reconstruction enhancing activity of Pt/C for formic acid electrooxidation by ultrasonic mixing with Pb/C and electrochemical activation process
APPL CATAL B-ENVIRON. 2013, 129(1): 146-152.
影响因子：19.503
Xiao Zhao. Jianbing Zhu. Liang Liang. Chenyang Li. Changpeng Liu*. Wei Xing*.

97: Model-based design and optimization of the microscale mass transfer structure in the anode catalyst layer for direct methanol fuel cell
AICHE J. 2013, 59(3): 780-786.
影响因子：3.993
Weiwei Cai. Liang Yan. Liang Liang. Wei Xing*. Changpeng Liu*.

98: Photoelectrochemical biofuel cells based on H₂-mesoporphyrin IX or Zn-mesoporphyrin IX sensitizer on titanium dioxide film electrode
J POWER SOURCES. 2013, 222(1): 344-350.
影响因子：9.127
Jing Yang. Ligang Feng. Fengzhan Si. Yuwei Zhang. Changpeng Liu. Wei Xing*. Kunqi Wang*.

99: Synthesis of self-supported non-precious metal catalysts for oxygen reduction reaction with preserved nanostructures from the polyaniline nanofiber precursor
J POWER SOURCES. 2013, 225(1): 129-136.
影响因子：9.127
Yang Hu. Xiao Zhao. Yunjie Huang. Li, Qingfeng. Bjerrum, Niels J.. Changpeng Liu*. Wei Xing*.

100: Investigation of Pt nanoparticles with controlled size supported on carbon for dimethyl ether electrooxidation
J POWER SOURCES. 2013, 225(1): 231-239.
影响因子：9.127
Fengzhan Si. Jianhui Liao. Liang Liang. Changpeng Liu. Xinbo Zhang*. Wei Xing*.

101: Effect of nitrogen-doped acetylene carbon black supported Pd nanocatalyst on formic acid electrooxidation
J POWER SOURCES. 2013, 239(1): 94-102.
影响因子：9.127
Chang, Jinfa. Xiujuan Sun. Ligang Feng. Wei Xing*. Qin, Xiujuan. Shao, Guangjie*.

102: Real contribution of formic acid in direct formic acid fuel cell: Investigation of origin and guiding for micro structure design
INT J HYDROGEN ENERG. 2013, 38(1): 212-218.
影响因子：5.816
Weiwei Cai. Liang Liang. Yuwei Zhang. Wei Xing*. Changpeng Liu*.

103: A model based thermal management of DMFC stack considering the double-phase flow in the anode
CHEM ENG SCI. 2013, 93(1): 110-123.
影响因子：4.311
Weiwei Cai. Li, Songtao. Chenyang Li. Liang Liang. Wei Xing*. Changpeng Liu*.

104: Developing and performance measurements for a novel miniaturized electrochemical methanol sensor
J ELECTROANAL CHEM. 2013, 688(S): 49-52.
影响因子：3.807
Liang Yan. Jianhui Liao. Ligang Feng. Xiao Zhao. Liang Liang. Wei Xing*. Changpeng Liu*.

105: Pt-Pb hollow sphere networks: self-sacrifice-templating method and enhanced activity for formic acid electrooxidation
RSC ADVANCES. 2013, 3(6): 1763-1767.
影响因子：3.361
Xiao Zhao. Jianbing Zhu. Weiwei Cai. Meiling Xiao. Liang Liang. Changpeng Liu*. Wei Xing*.

2012

106: Photoelectrochemical biofuel cell using porphyrin-sensitized nanocrystalline titanium dioxide mesoporous film as photoanode
BIOSENS BIOELECTRON. 2012, 32(1): 177-182.
影响因子：10.618
Kunqi Wang. Jing Yang. Ligang Feng. Yuwei Zhang. Liang Liang. Wei Xing*. Changpeng Liu*.

107: Poisoning effect diminished on a novel PdHoOx/C catalyst for the electrooxidation of formic acid
CHEM COMMUN. 2012, 48(3): 419-421.
影响因子：6.222
Ligang Feng. Xiujuan Sun. Changpeng Liu. Wei Xing*.

108: A modified Nafion membrane with extremely low methanol permeability via surface coating of sulfonated organic silica
CHEM COMMUN. 2012, 48(23): 2870-2872.
影响因子：6.222
Yuwei Zhang. Weiwei Cai. Fengzhan Si. Junjie Ge. Liang Liang. Changpeng Liu. Wei Xing*.

109: Electrocatalytic properties of Pd/C catalyst for formic acid electrooxidation promoted by europium oxide
J POWER SOURCES. 2012, 197(1): 38-43.
影响因子：9.127
Ligang Feng. Shikui Yao. Xiao Zhao. Liang Yan. Changpeng Liu. Wei Xing*.

110: Enhanced electroactivity of Pd nanocrystals supported on H₃PMo₁₂O₄₀/carbon for formic acid electrooxidation
J POWER SOURCES. 2012, 210(1): 392-396.
影响因子：9.127
Xiao Zhao. Jianbing Zhu. Liang Liang. Changpeng Liu. Jianhui Liao. Wei Xing*.

111: Pt/C catalysts with narrow size distribution prepared by colloidal-precipitation method for methanol electrooxidation
J POWER SOURCES. 2012, 217(1): 280-286.
影响因子：9.127
Shikui Yao. Ligang Feng. Xiao Zhao. Changpeng Liu. Wei Xing*.

112: Promotion effect of TiO₂ on catalytic activity and stability of Pt catalyst for electrooxidation of methanol
J POWER SOURCES. 2012, 218(1): 93-99.
影响因子：9.127
Qing Lv. Min Yin. Xiao Zhao. Chenyang Li. Changpeng Liu*. Wei Xing*.

113: Enhanced activity of Pt nano-crystals supported on a novel TiO₂@ N-doped C nano-composite for methanol oxidation reaction
J MATER CHEM. 2012, 22(37): 19718-19725.
影响因子：6.626
Xiao Zhao. Jianbing Zhu. Liang Liang. Jianhui Liao. Changpeng Liu*. Wei Xing*.

114: Fabrication and performance evaluation for a novel small planar passive direct methanol fuel cell stack
FUEL. 2012, 94(1): 401-408.
影响因子：6.609
Ligang Feng. Weiwei Cai. Chenyang Li. Jing Zhang. Changpeng Liu. Wei Xing*.

115: Ionic liquid-mediated synthesis of ‘clean’ palladium nanoparticles for formic acid electrooxidation
INT J HYDROGEN ENERG. 2012, 37(1): 51-58.
影响因子：5.816
Xiao Zhao. Yang Hu. Liang Liang. Changpeng Liu*. Jianhui Liao. Wei Xing*.

116: Development of a 30W class direct formic acid fuel cell stack with high stability and durability
INT J HYDROGEN ENERG. 2012, 37(4): 3425-3432.
影响因子：5.816
Weiwei Cai. Liang Yan. Chenyang Li. Liang Liang. Wei Xing*. Changpeng Liu*.

117: Electrocatalytic properties of PdCeO_x/C anodic catalyst for formic acid electrooxidation
INT J HYDROGEN ENERG. 2012, 37(6): 4812-4818.
影响因子：5.816
Ligang Feng. Jing Yang. Yang Hu. Jianbing Zhu. Changpeng Liu. Wei Xing*.

118: Formation of porous Pd black induced by in situ catalytic reaction
NANOTECHNOLOGY. 2012, 23(3): 35605.
影响因子：3.874
Yunjie Huang. Min Yin. Xiaochun Zhou. Changpeng Liu. Wei Xing*.

119: Enhanced activity of molybdovanadophosphoric acid modified Pt electrode for the electrooxidation of methanol
J ELECTROANAL CHEM. 2012, 664(1): 14-19.
影响因子：3.807
Ligang Feng. Qing Lv. Xiujuan Sun. Shikui Yao. Changpeng Liu. Wei Xing*.

120: A hybrid photoelectrochemical biofuel cell based on the photosensitization of a chlorophyll derivative on TiO₂ film
CATAL COMMUN. 2012, 20(1): 76-79.
影响因子：3.626
Jing Yang. Kunqi Wang. Liang Liang. Ligang Feng. Yuwei Zhang. Sun, Bo. Wei Xing*.

121: The role of anisotropic structure and its aspect ratio: high-loading carbon nanospheres supported Pt nanowires with high performance toward methanol electrooxidation
RSC ADVANCES. 2012, 2(2): 401-403.
影响因子：3.361
Fengzhan Si. Liang Ma. Changpeng Liu. Xinbo Zhang*. Wei Xing*.