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99. Sun, X.; Sun, S.; Gu, S.; Liang, Z.; Zhang, J.; Yang, Y.; Deng, Z.; Wei, P.; Peng, J.; Xu, Y.; Fang, C.; Li, Q.; Han, J.; Jiang, Z.; Huang, Y. High-performance single atom bifunctional oxygen catalysts derived from ZIF-67 superstructures. Nano Energy, 2019, 61, 245-250.

98. Deng, Z.; Gu, J. T.; Li, Y. Y.; Li, S.; Peng, J.; Li, X.; Luo, J. H.; Huang, Y. Y.; Fang, C.; Li, Q.; Han, J. T.; Huang, Y. H.; Zhao, Y. S. Ca-doped Na2Zn2TeO6 layered sodium conductor for all-solid-state sodium-ion batteries. Electrochimica Acta, 2019, 298, 121-126.

97. Xu, Y.; Wan, J.; Huang, L.; Ou, M. Y.; Fan, C. Y.; Wei, P.; Peng, J.; Liu, Y.; Qiu, Y. G.; Sun, X. P.; Fang, C.; Li, Q.; Han, J. T.; Huang, Y. H.; Alonso, J. A.; Zhao, Y. S. Structure Distortion Induced Monoclinic Nickel Hexacyanoferrate as High-Performance Cathode for Na-Ion Batteries. Adv Energy Mater., 2019, 9, 1803158.

96. Liang, J. S.; Ma, F.; Hwang, S.; Wang, X. X.; Sokolowski, J.; Li, Q.*; Wu, G.; Su, D. Atomic Arrangement Engineering of Metallic Nanocrystals for Energy-Conversion ElectrocatalysisJoule, 2019, 3, 956-991.


95. Miao, Z.; Hu, P.; Nie, C.; Xie, H.; Fu, W.; Li, Q.* ZrO2 nanoparticles anchored on nitrogen-doped carbon nanosheets as efficient catalyst for electrochemical CO2 reductionJ. Energy Chem., 2019, 38, 114-118.


94. Wang, T. Y.; Liang, J. S.; Zhao, Z. L.; Li, S. Z.; Lu, G.; Xia, Z. C.; Wang, C.; Luo, J. H.; Han, J. T.; Ma, C.; Huang, Y. H.; Li, Q.* Sub-6 nm Fully Ordered L10-Pt–Ni–Co Nanoparticles Enhance Oxygen Reduction via Co Doping Induced Ferromagnetism Enhancement and Optimized Surface Strain. Adv. Energy Mater.2019, 9, 1803771.

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93.  Xie, H.; Chen, S.; Ma, F.; Liang, J.S.; Miao, Z.P.; Wang, T.Y.; Wang, H.-L.; Huang, Y.H.; Li, Q.*Boosting Tunable Syngas Formation via Electrochemical CO2 Reduction on Cu/In2O3 Core/Shell NanoparticlesACS Appl. Mater. Inter., 2018, 10, 36996–37004.


92. Chen, R. S.; Li, S. Z.; Liu, J. Y.; Li, Y. Y.; Ma, F.; Liang, J. S.; Chen, X.; Miao, Z. P.; Han, J. T.; Wang, T. Y.; Li, Q.*Hierarchical Cu doped SnSe nanoclusters as high-performance anode for sodium-ion batteriesElectrochim. Acta, 2018, 282, 973-980.


91. Chen, X.; Ma, F.; Li, Y. Y.; Liang, J. S; Matthews, B.; Sokolowski, J.; Han, J. T.; Wu, G.; Lu, X.; Li, Q.*Nitrogen-doped carbon coated LiNi0.6Co0.2Mn0.2O2 cathode with enhanced electrochemical performance for Li-Ion batteriesElectrochim. Acta, 2018, 284, 526-533.


90. Miao, Z.P.; Wang, X.M.; Tsai M-.C.; Jin, Q.Q.; Liang, J.S.; Ma, F.; Wang, T.Y.; Zheng, S.J.; Hwang, B-.J.; Huang, Y.H.; Guo, S.J.; Li, Q.*Atomically Dispersed FeNx/C Electrocatalyst Boosts Oxygen Catalysis via a New MetalOrganic Polymer Supramolecule StrategyAdv. Energy Mater., 2018, 8, 1801226.


89. Hu, P.; Chen, C.J.; Zeng, R.; Xiang, J.W.; Huang, Y.; Hou, D.F.; Li, Q.*; Huang, Y.H., Facile Synthesis of Bimodal Porous Graphitic Carbon Nitride Nanosheets as Efficient Photocatalysts for Hydrogen EvolutionNano Energy, 2018, 50, 376-382.

88. Wang, C.; Wang, T.Y.; Liu, J.J.; Zhou, Y.; Yu, D.W.; cheng, J.K.; Han, F.; Li, Q.; Chen, J.T.; Huang, Y.H., Facile synthesis of silk-cocoon S-rich cobalt polysulfide as an efficient catalyst for the hydrogen evolution reaction, Energ. Environ. Sci., 2018, 11, 2467-2475. (Equal contribution)

87. Liang, J.S.; Miao, Z.P.; Ma, F.; Pan, R.; Chen, X.; Wang, T.Y.; Xie, H.; Li, Q.*Enhancing oxygen reduction electrocatalysis through tuning crystal structure: Influence of intermetallic MPt nanocrystalsChinese J. Catal., 2018, 39, 583-589.

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86. Xie, H.; Wang, T.Y.; Liang, J.S.; Li, Q.*; Sun, S.H.*, Cu-based nanocatalysts for electrochemical reduction of CO2Nano Today, 2018, 21, 41-54.

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85. Wang, T.Y.; Nam, G.; Jin, Y.; Wang, X.; Ren, P.; Kim, M.G.; Liang, J.; Wen, X.; Jang, H.; Han, J.; Huang, Y.; Li, Q.*Cho, J. *, NiFe (Oxy) Hydroxides Derived from NiFe Disulfides as Efficient Oxygen Evolution Catalyst for Rechargeable Zn–Air Batteries: The Effect of Surface S ResiduesAdv. Mater., 2018, 30, 1800757.


84. Li, Y.Y.; Deng, Z.; Peng, J.; Gu, J.T.; Chen, E.Y.; Yu, Y.; Wu, J.F.; Li, X.; Luo, J.H.; Huang, Y.Y.; Xu, Y.; Gao, Z.H.; Fang, C.; Zhu, J.L.; Li, Q.; Han, J.T.; Huang, Y.H., New P2-Type Honeycomb-Layered Sodium-Ion Conductor: Na2Mg2TeO6ACS Appl. Mater. Inter., 2018, 10, 15760-15766.

83. Li, J.; Xi, Z.; Pan, Y.T.; Spendelow, J.S.; Duchesne, P.N.; Su, D.; Li, Q.; Yu, C.; Yin, Z.; Shen, B.; Kim Y.S.; Zhang, P.; Sun, S., Fe Stabilization by Intermetallic L10-FePt and Pt Catalysis Enhancement in L10-FePt/Pt Nanoparticles for Efficient Oxygen Reduction Reaction in Fuel CellsJ. Am. Chem. Soc., 2018, 140, 2926-2932.

82.Li, Y.Y.; Deng, Z.; Peng, J.; Chen, E.Y.; Yu, Y.; Li, X.; Luo, J.H.; Huang, Y.Y.; Zhu, J.L.; Fang, C.; Li, Q.; Han, J.T.; Huang, Y.H., A P2Type Layered Superionic Conductor GaDoped Na2Zn2TeO6 for AllSolidState SodiumIon BatteriesChemistry - A European Journal, 2018, 24, 1057-1061. 

81. Zhang, J.; Zhang, D.; Zhang, R.; Zhang, N.; Cui, C.; Zhang, J.; Jiang, B.; Yuan, B.; Wang, T.; Xie, H.;Li, Q.*Facile Synthesis of Mesoporous and Thin-Walled Ni–Co Sulfide Nanotubes as Efficient Electrocatalysts for Oxygen Evolution ReactionACS Appl. Energy Mater.2018, 1, 495-502.

80. Yu, C.; Guo, X.F.; Shen, M.Q.; Shen, B.; Muzzio, M.; Yin, Z. Y.; Li, Q.; Xi, Z.; Li, J. R.; Seto, C. T.; Sun, S.H., Maximizing the Catalytic Activity of Nanoparticles through Monolayer Assembly on Nitrogen-Doped GrapheneAngew. Chem. Int. Ed., 2018, 57, 451-455.

79. Ma, F.; Liang, J.; Wang, T.; Chen, X.; Fan, Y.; B., Hultman; Xie, H.; Han, J.; Wu, G.; Li, Q.*Efficient Entrapment and Catalytic Conversion of Lithium Polysulfides on Hollow Metal Oxides Submicro-spheres as Lithium-Sulfur Battery CathodesNanoscale, 2018,10, 5634-5641


78. Wang, T.; Wang, C.; Jin, Y.; Anna, S.; Liang, J.; Han J.; Huang, Y.; Li, Q.*; Wu, G., Amorphous Co–Fe–P nanospheres for efficient water oxidationJ. Mater. Chem. A5, 25378-25384.

                                                                             


77. Xie, H.; Wang, J. Y.; Ithisuphalap, K.; Wu, G.; Li, Q.*Recent advances in Cu-based nanocomposite photocatalysts for CO2 conversion to solar fuelsJ. Energy. Chem., 2017, 26, 1039-1049.



76. Wang, T.; Xie, H.; Chen, M.; Alyssa, D.; Cho, J*.; Wu, G*.; Li, Q.*Precious Metal-free Approach to Hydrogen Electrocatalysis for Energy Conversion: from Mechanism Understanding to Catalyst DesignNano. Energy, 2017, 42, 69-89.


75. Xi, Z.; Li, J.; Su, D.; M. Muzzio; Yu, C.; Li, Q.; Sun, S.*, Stabilizing CuPd Nanoparticles via CuPd Coupling to WO2.72 Nanorods in Electrochemical Oxidation of Formic AcidJ. Am. Chem. Soc., 2017, 139, 15191–15196.

74. Zhao, Q.; Wu, W.; Wei, X.; Jiang, S.; Zhou, T.; Li, Q.*; Lu, Q. *, Graphitic carbon nitride as electrode sensing material for tetrabromobisphenol-A determinationSensors and Actuators B: Chemical, 2017, 248, 673-681

73. Xi, Z.; ERDOSY, D.; Mendoza-Garcia, A.; Duchesne, P.; Li, J.; Muzzio, M.; Li, Q.; Zhang, P.; Sun, S.*, Pd Nanoparticles Coupled to WO2. 72 Nanorods for Enhanced Electrochemical Oxidation of Formic AcidNano Lett., 2017, 17, 2727-273. (IF= 13.779)

72. Li, Q.*; Fu, J.; Zhu, W.; Chen, Z.; Shen, B.; Wu, L.; Xi, Z.; Wang, T.; Lu, G.; Zhu, J.; Sun, S.*, Tuning Sn-Catalysis for Electrochemical Reduction of CO2 to CO via the Core/Shell Cu/SnO2 StructureJ. Am. Chem. Soc., 2017, 139, 4290-4293. (IF= 13.038)

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71. Ma, F.; Li, Q.*; Wang, T.; Zhang, H.; Wu, G.*, Energy storage materials derived from Prussian blue analoguesSci. Bull., 2017, 62, 358-368.

70. Huang, Y.; Wang, J.; Miao, L.; Jin, Y.; Peng, J.; Li, Q.; Fang, C.; Han, J.; Huang, Y. A new layered titanate Na2Li2Ti5O12 as a high-performance intercalation anode for sodium-ion batteriesJ. Mater. Chem. A, 2017, 5, 22208-22215.

69. Luo,J.H.; Sun, S.X.; Peng, J.; Liu, B.; Huang, Y.Y.; Wang, K.; Zhang, Q.; Li, Y.Y.; Jin, Y.; Liu, Y.; Qiu, Y.G.; Li, Q.; Han, J.T.*; Huang, Y.H., Graphene-Roll-Wrapped Prussian Blue Nanospheres as a High-Performance Binder-Free Cathode for Sodium-Ion BatteriesACS Appl. Mater. Interfaces, 2017, 9 , 25317–25322

68. Xi, Z, Lv, H.; ERDOSY, D.; Su, D.; Li, Q.; Yu, C.; Li, J.; Sun, S.*, Atomic Scale Deposition of Pt around Au Nanoparticles to Achieve Much Enhanced Electrocatalysis of PtNanoscale, 2017, 9, 7745-7749.