Xin Wang research group

2013 onwards

1. Zhenfeng Huang, Shibo Xi, Jiajia Song, Shuo Dou, Xiaogang Li, Yonghua Du Caozheng Diao, Zhichuan J. Xu Xin Wang*, Tuning of lattice oxygen reactivity and scaling relation to construct better oxygen evolution electrocatalyst, Nature Comm, accepted .

2. Jiong Wang, Shuo Dou, Xin Wang*, Structural tuning of heterogeneous molecular catalysts for electrochemical energy conversion, Science Advances, DOI: 10.1126/sciadv.abf3989

3. V. Jose, J.M.V. Nsanzimana, H. Hu, J. Choi, X. Wang*, J.M. Lee*, Highly Efficient Oxygen Reduction Reaction Activity of NDoped CarbonCobalt Boride Heterointerfaces, Advanced Energy Materials, https://doi.org/10.1002/aenm.202100157

4. S. Dou, X. Li, X. Wang*, Rational Design of Metal-Organic Frameworks towards Efficient Electrocatalysis, ACS Materials Letters, 10.1021/acsmaterialslett.0c00229

5. S. Dou, L.B. Sun, S. Xi, X. Li, T. Su, H.J. Fan, X. Wang*, Enlarging the π-conjugation of cobalt porphyrin for highly active and selective CO2 electroreduction, Chemsuschem, http://dx.doi.org/10.1002/cssc.202100176

6. Jiong Wang, Libo Sun, Zhenfeng Huang, Vikas Reddu, Tan Su, Adrian C. Fisher, Xin Wang*, Axial modification of cobalt complexes on heterogeneous surface with enhanced electron transfer for carbon dioxide reduction, Angewandte Chemie – International Editionhttps://doi.org/10.1002/anie.202008759

7. Ye Chen, Zhanxi Fan, Jiong Wang, Chongyi Ling, Wenxin Niu, Zhiqi Huang, Guigao Liu, Bo Chen, Zhuangchai Lai, Xiaozhi Liu, Bing Li, Yun Zong, Lin Gu, Jinlan Wang*, Xin Wang*, Hua Zhang*, Ethylene Selectivity in Electrocatalytic CO2 Reduction on Cu Nanomaterials: A Crystal Phase-Dependent Study, J. Am. Chem. Soc. 2020, 142, 29, 12760.

8. Libo Sun, Zhenfeng Huang, Vikas Reddu, Tan Su, Adrian C. Fisher, Xin Wang*, A Planar, Conjugated N4-macrocyclic Cobalt Complex for Heterogeneous Electrocatalytic CO2 Reduction with High Activity, , Angewandte Chemie – International Editionhttps://doi.org/10.1002/anie.202007445

9. Xiaogang Li, Shibo Xi, Libo Sun, Shuo Dou, Zhenfeng Huang, Tan Su, Xin Wang*, Isolated FeN4 Sites for Efficient Electrocatalytic CO2 Reduction, Advanced Science, https://doi.org/10.1002/advs.202001545.

10. Jiajia Song, Chao Wei, Zhen-Feng Huang, Chuntai Liu, Lin Zeng, Xin Wang, Zhichuan J. Xu, A review on fundamentals for designing oxygen evolution electrocatalysts, Chemical Society Reviews, 2020, 49, 2196.

11. Subiao Liu, Xue Feng Lu, Jing Xiao, Xin Wang, Xiong Wen (David) Lou, Bi2O3 Nanosheets Grown on MultiChannel Carbon Matrix to Catalyze Efficient CO2 Electroreduction to HCOOH, Angewandte Chemie – International Editionhttps://doi.org/10.1002/anie.201907674.

12. Meilan Pan, JiongWang, Ming Hu, Guandao Gao, Xin Wang, Jia Wei Chew Augmentation of hydroxyl groups as electrocatalytic active sites in porous graphene, Carbon, 2019, 154, 384

13. Libo Sun, Vikas Reddu, Adrian C. Fisher, and Xin Wang*, Electrocatalytic Reduction of Carbon Dioxide: Opportunities with Heterogeneous Molecular Catalysts, Energy and Environmental Sciences, 2020,13, 374-403.

14. Zhenfeng Huang, Jiajia Song, Shuo Dou, Xiaogang Li, jiong Wang, Xin Wang*, Strategies to Break the Scaling Relation toward Enhanced Oxygen Electrocatalysis, Matter, 2019, 1, 1491.

15. Jiong Wang, Xiang Huang, Shibo Xi, Jong-Min Lee, Cheng Wang, Yonghua Du, Xin Wang*, "Linkage effect in the heterogenization of cobalt complexes by doped graphene for electrocatalytic CO2 reduction, Angewandte Chemie – International Edition, doi.org/10.1002/anie.201906475.

16. Jean Marie Vianney Nsanzimana, Lanqian Gong, Raksha Dangol, Vikas Reddu, Vishal Jose Bao Yu Xia, Qingyu Yan, Jong-Min Lee, Xin Wang*, Tailoring of Metal Boride Morphology via Anion for Efficient Water Oxidation, Advanced Energy Materials, 2019, 9, 1901503.

17. Zhen-Feng Huang, Jiajia Song, Yonghua Du, Shibo Xi, Shuo Dou, Jean Marie Vianney Nsanzimana, Cheng Wang, Zhichuan J. Xu,* and Xin Wang*, Chemical and structural origin of lattice oxygen oxidation in Co-Zn oxyhydroxide oxygen evolution electrocatalysts, Nature Energy, 2019, DOI: 10.1038/s41560-019-0355-9.

18. Shuo Dou, Jiajia Song, Shibo Xi, Yonghua Du, Jiong Wang, Zhenfeng Huang, Zhichuan Xu, and Xin Wang*, Boosting Electrochemical CO2 Reduction on Metal-Organic Frameworks via Ligand Doping, Angewandte Chemie – International Edition, 2019, 58, 4041.

19. Y. Jiang, P. Ni, C. Chen, Y. Lu,* P. Yang, B. Kong, A. Fisher and X. Wang*, Selective Electrochemical H2O2 Production through Two-electron Oxygen Electrochemistry, Advanced Energy Materials, https://doi.org/10.1002/aenm.201801909.

20. Jiong Wang, Liyong Gan, Qianwen Zhang, Vikas Reddu, Yuecheng Peng, Zhichao Liu, Xinghua Xia, Cheng Wang and Xin Wang*, A water-soluble Cu complex as molecular catalyst for electrocatalytic CO2 reduction on graphene based electrodes, Advanced Energy Materials, 2019, 9, 1803151.

21. Shuo Dou, Xin Wang*, Shuangyin Wang*, Rational Design of Transition Metal-Based Materials for Highly Efficient Electrocatalysis, Small Methods, 2019, 3, 1800211.

22. Shengli Zhai, LiWei, H. Enis Karahan, Yanqing Wang, Chaojun Wang, Alejandro Montoya, Qian Shao, Xin Wang, Yuan Chen, Ultrafast hydrothermal assembly of nanocarbon microfibers in near-critical water for 3D microsupercapacitors, Carbon, 2018, 132, 698.

23. Ye Zhou, Shengnan Sun, Jiajia Song, Shibo Xi, Bo Chen, Yonghua Du, Adrian C. Fisher, Fangyi Cheng, Xin Wang, Hua Zhang, Zhichuan J. Xu, Enlarged Co-O covalency in octahedral sites leading to highly efficient spinel oxides for oxygen evolution reaction, Advanced Materials, 2018, 30, 1802912.

24. Jean Marie Vianney Nsanzimana, Vikas Reddu, Yeucheng Peng, Zhenfeng Huang, Cheng Wang, and Xin Wang*, Ultrathin Amorphous Iron-nickel Boride Nanosheets for Highly Efficient Electrocatalytic Oxygen Production, Chemistry - A European Journal, 2018, 24, 18502.

25. Jean Marie Vianney Nsanzimana, Yeucheng Peng, Mao Miao, Vikas Reddu, Wenyu Zhang, Hongming Wang, Bao Yu Xia, and Xin Wang*, An Earth-Abundant Tungsten–Nickel Alloy Electrocatalyst for Superior Hydrogen Evolution, ACS Applied Nano Materials, 2018, 1, 1228.

26. Y. Y. Jiang, J.Y. Lin, X. Wang, Z.X. Shen, Y. Z. Lu, A Hierarchical MoP Nanoflake Array Supported on Ni Foam: A Bifunctional Electrocatalyst for Overall Water Splitting Small Methods, 2018, 2, 1700369.

27. C.R. Zhu, A. Wang, W. Xiao, D. Chao, X. Zhang, N. H. Tiep, S. Chen, J. Kang, X. Wang, J. Ding, J. Wang, H. Zhang, H. J. Fan, In Situ Grown Epitaxial Heterojunction Exhibits HighPerformance Electrocatalytic Water Splitting, Advanced Materials, 2018, 30, 1705516.

28. H. Wang, Y. Wu, X. Yuan, G. Zeng, J. Zhou, X. Wang*, J.W. Chew*, Clay-inspired MXene-based electrochemical devices and photo-electrocatalyst: State-of-the-Art progresses and challenges, Advanced Materials, 2018, 30, 1704561.

29. Jiong Wang, Liyong Gan, Wenyu Zhang, Yuecheng Peng, Hong Yu, Qingyu Yan, Xinghua Xia and Xin Wang*, In situ formation of molecular Ni-Fe active sites on heteroatoms doped graphene as heterogeneous electrocatalyst toward oxygen evolution, Science Advances, 2018, 4 eaap7970 .

30. Wenyu Zhang, Libo Sun, Jean Marie Vianney Nsanzimana, Xin Wang*, Lithiation/delithiation synthesis of few layer silicene nanosheets for rechargeable Li-O2 batteries, Advanced Materials, 2018, 30, 1705523 .

31. Yizhong Lu, Xin Wang*, Highly Efficient and Durable Pd Hydride Nanocubes Embedded in 2D Amorphous NiB Nanosheets for Oxygen Reduction Reaction, Advanced Energy Materials, DOI: 10.1002/aenm.201700919

32. Xin Long Tian, Yang Yang Xu, Wenyu Zhang, Tian Wu, Bao Yu Xia*, and Xin Wang*, Unsupported Platinum-Based Electrocatalysts for Oxygen Reduction Reaction, ACS Energy Letters, 2017, 2 , 2035

33. Zhengfei Dai , Hongbo Geng, Jiong Wang, Yubo Luo, Bing Li, Yun Zong , Jun Yang, Yuanyuan Guo, Yun Zheng, Xin Wang , and Qingyu Yan* Hexagonal-Phase Cobalt Monophosphosulfide for Highly Efficient Overall Water Splitting, ACS Nano, DOI: 10.1021/acsnano.7b05050

34. Zhen-Feng Huang , Jiajia Song, Xin Wang, Lun Pan, Ke Li, Xiangwen Zhang, Li Wang, Ji-Jun Zou*, Switching charge transfer of C3N4/W18O49 from type-II to Z-scheme by interfacial band bending for highly efficient photocatalytic hydrogen evolution, Nano Energy, 2017, 40, 308

35. Jianwei Nai, Yan Lu, Le Yu, Xin Wang, and Xiong Wen (David) Lou*, Formation of Ni–Fe Mixed Diselenide Nanocages as a Superior Oxygen Evolution Electrocatalyst, Advanced Materials, 10.1002/adma.201703870.

36. Yuecheng Peng; Tian Wu; Libo Sun; Jean Nsanzimana; Adrian Fisher; Xin Wang*, Selective Electrochemical Reduction of CO2 to Ethylene on Nanopores Modified Copper Electrodes in Aqueous Solution, ACS Applied Materials & Interfaces, 10.1021/acsami.7b10421

37. Jean Marie Vianney Nsanzimana, Cheng Wang, Yang Yang Xu, Larissa Thia, Baoyu Xia, Xin Wang*, An Efficient and Earth-Abundant Oxygen-Evolving Electrocatalyst Based on Amorphous Metal Borides, Advanced Energy Materials, 10.1002/aenm.201701475 .

38. Zhen-Feng Huang, Jiong Wang, Yuecheng Peng, Chi-Young Jung,  Adrian Fisher, Xin Wang*, Design of Efficient Bifunctional Oxygen Reduction/Evolution Electrocatalyst: Recent Advances and Perspectives, Advanced Energy Materials, DOI: 10.1002/aenm.201700544 .

39. Xiaoyi Cai, Bao Yu Xia, Joseph Franklin, Baosheng Li, Xin Wang, Zhan Wang, Luwei Chen, Jianyi Lin, Linfei Lai* and Zexiang Shen*, Free-standing vertically-aligned nitrogen-doped carbon nanotube arrays/graphene as air-breathing electrodes for rechargeable zinc–air batteries, J. Mater. Chem. A, 2017, 5, 2488.

40. Yizhong Lu, Larissa Thia, Adrian Fisher, Chi-Young Jung, Sung Chul Yi* and Xin Wang*, SCIENCE CHINA Materials, 2017, 60, 1109.

41. Jiong Wang, Xiaoming Ge, Zhaolin Liu, Larissa Thia, Ya Yan, Wei Xiao, Xin Wang*, Heterogeneous electrocatalyst with molecular cobalt ions serving as the center of active sites, Journal of the American Chemical Society, 2017, 139 (5), 1878

42. Jiong Wang, Hua Zhang, Xin Wang*, Toward recent methods for the synthesis of noble-metal-free hydrogen evolution electrocatalysts: from nano to sub-nano scale, Small Methods, 2017, 1 1700118.

43. Shengli Zhai, H. Enis Karahan, Li Wei, Xuncai Chen, Zheng Zhou, Xin Wang, Yuan Chen, Hydrothermal assembly of micro-nano-integrated core-sheath carbon fibers for high-performance all-carbon micro-supercapacitors, Energy Storage Materials, http://dx.doi.org/10.1016/j.ensm.2017.01.004

44. Larissa Thia, Mingshi Xie,  Donghwan Kim*, and Xin Wang*, Ag containing porous Au structures as highly selective catalysts for glycolate and formate, Catalysis Science & Technology, 2017, DOI: 10.1039/C6CY02580C.

45. Zhenchao LeiWeiming Feng,   Chunhua Feng,*   Weijia Zhou,   Chaohai Wei and   Xin Wang* Nitrified coke wastewater sludge flocs: attractive precursor for N, S dual-doped graphene-like carbon with ultrahigh capacitance and oxygen reduction performance, J. Mater. Chem. A, 2017,5, 2012-2020

46. Zhijuan Wang, Yizhong Lu, Ya Yan, Thia Yi Ping Larissa, Xiao Zhang, Delvin Wuu, Hua Zhang, Yanhui Yang, Xin Wang*, Core-shell carbon materials derived from metal-organic frameworks as an efficient oxygen bifunctional electrocatalyst Nano Energy, 2016, 30, 368.

47. Ya Yan,   Baoyu Xia,   Bin Zhao and   Xin Wang*, A review on noble-metal-free bifunctional heterogeneous catalysts for overall electrochemical water splitting, J. Mater. Chem. A, 2016, 4, 17587.

48. Ya Yan, Bin Zhao, Sung Chul Yi, Xin Wang*, Assembling pore-rich FeP nanorods on the CNT backbone as an advanced electrocatalyst for oxygen evolution, Journal of Materials Chemistry A, 2016, DOI: 10.1039/C6TA05317C

49. Larissa Thia, Mingshi Xie, Zhaolin Liu, Xiaoming Ge, Yizhong Lu, Wenmei Eileen Fong, Xin Wang*, Cu modified Au nanoparticles as highly selective catalysts for glycerol electro-oxidation in alkaline solution, Chemcatchem, 2016, 8, 3272.

50. Zhou, T. H., Du, Y. H., Yin, S. M., Tian, X. Z., Yang, H. B., Wang, X., Liu, B., Zheng, H. M., Qiao, S. Z.*, Xu, R.*, Nitrogen-Doped Cobalt Phosphate@Nanocarbon Hybrids for Efficient Electrocatalytic Oxygen Reduction, Energy Environ. Sci., 2016, 9, 2563.

51. Le Tao,  Mingshi Xie, Giap Ying Chiew, Zhijuan Wang, Wei Ning Chen and Xin Wang*, Improving electron trans-inner membrane movements: bridging the gap between fuel oxidation and electron transport in microbial electrocatalysis, Chem Comm., 2016, 52, 6292.

52. L. Yu, B. Y. Xia, X. Wang,* X. W. Lou,* General Formation of M-MoS3 (M = Co, Ni) Hollow Structures with Enhanced Electrocatalytic Activity for Hydrogen Evolution, Advanced Materials, 2016, 28, 92

53. M. S. Xie, B. Y. Xia, Y. W. Li, Y. Yan, Y.H. Yang, Q. Sun, S. H. Chan, A. Fisher, X. Wang*, Amino Acid Functionalized Copper Electrodes for the Enhanced Selective Electroreduction of Carbon Dioxide towards Hydrocarbons, Energy Environ. Sci, 2016, 9, 1687-1695. (Selected as Back Cover Paper)

54. B. Y Xia, Y. Yan, N. Li, H. B. Wu, X. W. Lou*, X. Wang*, A metal-organic-framework-derived bi-functional oxygen electrocatalyst, Nature Energy, 1, 15006 (2016).

55. Y. Yan, B. Y. Xia, X. Ge, Z. Liu, A. Fisher, X. Wang*, A Flexible Electrode Based on Iron Phosphide Nanotubes for Overall Water Splitting, Chemistry - A European Journal, 2015, 21, 18062.

56. P. Xiao, W. Chen, X. Wang*, A review on phosphide based material for electro-catalytic hydrogen evolution, Advanced Energy Materials, 2015, 5, 1500985.

57. L. Tao, H. Wang, M. S. Xie, L. Thia, W. N. Chen and X. Wang*, Improving mediated electron transport by a decoupled bio-cocatalyst in anodic bioelectrocatalysis, Chem. Comm., 2015, 51, 12170.(Selected as Front Cover Paper)

58. X. Ge, T. Goh, B., Li, T. S. Andy Hor, J. Zhang, P. Xiao, X. Wang, Y. Zong, Z. Liu, Efficient and durable oxygen reduction and evolution of hydrothermally synthesized La(Co0.55Mn0.45)0.99O3-[small delta] nanorod/graphene hybrid in alkaline media, Nanoscale, DOI: 10.1039/C5NR01272D

59. Y. Yan, L. Thia, B. Y. Xia, X. Ge, Z. Liu, A. Fisher, X. Wang*, Construction of Efficient 3D Gas Evolution Electrocatalyst for Hydrogen Evolution: Porous FeP Nanowire Arrays on Graphene Sheets, Advanced Science, 2015, 2, 1500120.

60. Haibo Wang, Larissa Thia, Nan Li, Xiaoming Ge, Zhaolin Liu, Xin Wang*, Pd Nanoparticles on Carbon Nitride-Graphene for the Selective Electro-Oxidation of Glycerol in Alkaline Solution, ACS Catalysis, 2015, 5, 3174.

61. B.Y.Xia, H.B. Wu, N. Li, Y. Yan, X.W. Lou* and X. Wang*, One-Pot Synthesis of Pt-Co Alloy Nanowire Assemblies with Tunable Composition and Enhanced Electrocatalytic Properties, Angewandte Chemie – International Edition, 2015, 54, 3797.

62. P. Xiao, X. Ge, H. Wang, Z. Liu, A. Fisher, X. Wang*, Novel molybdenum-tungsten binary carbide nanowire and its electrochemical activation for efficient and stable hydrogen evolution, Advanced Functional Materials, 2015, 25, 1520

63. H. Wang, L. Thia, Nan Li, X. Ge, Z. Liu, X. Wang*, Selective Electro-Oxidation of Glycerol over Au Supported on Extended Poly(4-vinylpyridine) Functionalized Graphene, Applied Catalysis B:  Environmental, 166–167 (2015) 25–31.

64. Y. Yan, B. Y. Xia, N. Li, Z. Xu, A. Fisher, X. Wang*, Vertically Oriented MoS2 and WS2 Nanosheets Directly Grown on Carbon Cloth as Efficient and Stable 3-Dimensional Hydrogen-Evolving Cathode, Journal of Materials Chemistry A, 2015, 3, 131-135.

65. N. Li, H.B. Wang, L. Thia, J.Y. Wang, X. Wang*, Enzymatic-Reaction Induced Production of Polydopamine Nanoparticles for Sensitive and Visual Sensing of Urea , Analyst, 2015, 140 (2), 449 - 455.

66. C. C. Li, W. Zhang, H. Ang, H. Yu, B. Xia, X. Wang, Y Yang, Y. Zhao, H. H. Hng, Q. Yan*, Compressed hydrogen gas-induced synthesis of Au-Pt core-shell nanoparticle chains towards high-performance catalysts for Li-O-2 batteries, Journal of Materials Chemistry A, 2014, 2 (27), 10676-10681

67. H. Zhao, Q. Tang, Y. Wang, X. Wang*, Pd Nanoparticles Supported on PDDA-Functionalized Ti4O7 as an Effective Catalyst for Formic Acid Electrooxidation, ECS Solid State Letters, 2014, 3 (9), M37-M40.

68. D. T. Dam, X. Wang, J. M. Lee, Graphene/NiO Nanowires: Controllable One-Pot Synthesis and Enhanced Pseudocapacitive Behavior, ACS Applied Materials & Interfaces, 2014, 6 (11), 8246-8256.

69. X Ge, YY Liu, FWT Goh, TSA Hor, Y Zong, P Xiao, Z Zhang, SH Lim, B Li, X Wang, ZL Liu, Dual-Phase Spinel MnCo2O4 and Spinel MnCo2O4/Nanocarbon Hybrids for Electrocatalytic Oxygen Reduction and Evolution, ACS Applied Materials & Interfaces, 2014, 6 (15), 12684-12691.

70. L. Zhang, H. B. Wu, Y. Yan, X. Wang*, X. W. Lou*, Hierarchical MoS2 microboxes constructed by nanosheets with enhanced electrochemical properties for lithium storage and water splitting, Energy Environ. Sci., 2014, 7 (10), 3302-3306.

71. X. Li, R. J. Lim, J. M. Lee, X. Wang, K. H. Lim, Effects of strain on PdZn(100) for methoxide decomposition: A DFT study, Journal of Molecular Catalysis A-Chemical, 2014, 393, 296-301.

72. P. Xiao,   M. A. Sk,  L. Thia,  X. Ge,   R. J. Lim,  J. Y. Wang,   K. H. Lim and   X. Wang*, Molybdenum phosphide as an efficient electrocatalyst for hydrogen evolution reaction, Energy Environ. Sci., 2014, 7 (8), 2624 - 2629

73. W. Zhang, J. Zhu, H. X. Ang, H. Wang, H. Tan, D. Yang, C. Xu; N. Xiao, B. Li, W. L. Liu, X. Wang, H. H. Hng, Q. Yan, Fe-based metallopolymer nanowall-based composites for Li-O2 battery cathode, ACS Applied Materials & Interfaces, 2014, 6(10), 7164-7170.

74. Y. Yan, B. Y. Xia, Z. Xu, X. Wang*, Recent Development of Molybdenum Sulfides as Advanced Electrocatalysts for Hydrogen Evolution Reaction, ACS Catalysis, 2014, 4(6), 1693-1705.

75. B. Y. Xia, Y. Yan, X. Wang* and Xiong Wen (David) Lou*, Recent Progress on Graphene-based Hybrid Electrocatalysts, Materials Horizons, 2014, 1, 379 – 399.

76. J. Zhao, X. Wang, Z. Xu and J. S. C. Loo, Hybrid catalysts for photoelectrochemical reduction of carbon dioxide: a prospective review on semiconductor/metal complex co-catalyst systems, J. Mater. Chem. A, 2014, 2, 15228.

77. N. Li, L. Thia, X Wang*, CO2-Responsive Surface with Amidine-Terminated Self-Assembled Monolayer for Stimuli-Induced Selective Adsorption, Chem Comm, 2014, 50, 4003-4006.

78. P. Xiao, Y. Yan, X. Ge, Z. Liu, J.Y. Wang, X Wang*, Investigation of molybdenum carbide nano-rod as an efficient and durable electrocatalyst for hydrogen evolution in acidic and alkaline media, Applied Catalysis B:  Environmental, 154–155 (2014) 232–237.

79. B. Y. Xia, H. B. Wu, Y. Yan, H.B. Wang, X. Wang,* One-pot synthesis of platinum nanocubes on reduced graphene oxide with enhanced electrocatalytic activity, Small, 2014, 10 (12), 2336-2339.

80. N. Li, Ya Yan, B.Y. Xia, J.Y. Wang, X. Wang*, Novel Tungsten Carbide Nanorods: An Intrinsic Peroxidase Mimetic with High Activity and Stability in Aqueous and Organic Solvents, Biosensors and Bioelectronics, 54 (2014) 521.

81. H. Wang, M. Xie, L. Thia, A. Fisher, X. Wang*, Strategies on the Design of Nitrogen Doped Graphene, The Journal of Physical Chemistry Letters, 2014, 5, 119-125.          

82. R. J. Lim, M. Xie, M. Alam Sk, J. M. Lee, A. Fisher, X. Wang, K. H. Lim, A review on the electrochemical reduction of CO2 in fuel cells, metal electrodes and molecular catalysts, Catalysis Today, 2014, 233, 169-180.

83. G. Q. Zhang, B. Y. Xia, X. Wang, X. W. Lou,* Strongly Coupled NiCo2O4-rGO as a Methanol-tolerant Electrocatalyst for Oxygen Reduction Reaction, Advanced Materials, 2014, 26 (15), 2408-2412.

84. Y. Yan, B. Y. Xia, X. Ge, Z. Liu, J. Y. Wang, X. Wang*,  Ultrathin MoS2 Nanoplates with Rich Active Sites as Highly Efficient Catalyst for Hydrogen Evolution, ACS Applied Materials & Interfaces, 2013, 5, 12794.

85. T.H.Nguyen, Y.Y. Yu, X. Wang, J. Y. Wang, H. Song, 3D Mesoporous Polysulfone-Carbon Nanotube Anode for Enhanced Bioelectricity Output in Microbial Fuel Cells, Chem. Comm., 2013, 49, 10754.

86. B. Y. Xia, H. B. Wu, X. Wang,* X. W. Lou,* Highly Concave Pt Nanoframes with High-index Facets and Enhanced Electrocatalytic Activities, Angewandte Chemie – International Edition, 2013, 52, 12337.

87. G. Q. Zhang, B. Y. Xia, C. Xiao, L. Yu, X. Wang, Y. Xie, X. W. Lou,* General Formation of Complex Tubular Nanostructures of Metal Oxides for the Oxygen Reduction Reaction and Lithium-ion Batteries, Angewandte Chemie – International Edition, 2013, 52, 8643.

88. Y. Yan,   X. Ge,   Z. Liu,   J.Y. Wang,   J.M. Lee, X. Wang*, Facile synthesis of low crystalline MoS2 nanosheet-coated CNTs for enhanced hydrogen evolution reaction, Nanoscale, 2013, 5 (17), 7768

89. B.Y.Xia, H.B.Wu, Y.Yan, X.W. Lou*, X. Wang*, Ultrathin and Ultralong Single-crystal Pt Nanowire Assemblies with Highly Stable Electrocatalytic Activity, Journal of the American Chemical Society, 2013, 135, 9480.

90. D. T. Dam, X. Wang, J.-M. Lee, Mesoporous ITO/NiO with a core/shell structure for supercapacitors, Nano Energy, 2013, 2, 1303.

91. Y. Wang, H. Liu, H. Wang, X. Du, F. Wang, L. Wang, T. Qi, J. Y. Wang, J. M. Lee, X. Wang*, Pd catalyst supported on chitosan-functionalized large-area 3D reduced graphene oxide for formic acid electrooxidation reaction, Journal of Materials Chemistry, 2013, 1, 6839.

92. H. Wang, B. Xia, Y. Yan, N. Li, J.Y. Wang, X Wang*, Water-soluble polymer exfoliated graphene: as catalyst support and sensor, Journal of Physical Chemistry B, 2013, 117, 5606.

93. Y. Yan, B. Xia, X. Qi, H. Wang,  R. Xu,  J.Y. Wang, H. Zhang, and X. Wang*, Nano-Tungsten Carbide Decorated Graphene as Co-catalysts for Enhanced Hydrogen Evolution on Molybdenum Disulfide, Chem. Comm., 2013, 49, 4884. (Selected as front cover paper)

94. L. Wang,  M. Lan,  Z. Liu,  G. Qin,  C. Wu,  X. Wang,  W. Qin,  W. Huang and L. Huang, Enhanced deep-ultraviolet upconversion emission of Gd3+ sensitized by Yb3+ and Ho3+ in β-NaLuF4 microcrystals under 980 nm excitation, Journal of Materials Chemistry, 2013,1, 2485.

 

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