15599
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注:IF - 影响因子;Q - 中科院分区。

919.052 --> per 11.63357

总:919.052 (79) + 289.255 (30) = 1208.307

【MRE引】

准备&在投 (+ 合作1)

144. R RenG Liu*, JK Lee*, et al. Photo-enhanced Zn-air battery. preparation

143. G Liu*, et al. Flexbile FDSSC. preparation

142. X Yang#, R Ren#, M Wang, F Zhang*, J Qiao*, G Liu*. Photo-assistant Zn-air battery. preparation

141. M Wang, H Fu, ... ..., G Liu*. Liquefied anodes for fuel cells and flow cells. submission 【2】

140. B Zong, ... ..., G Liu*, F Ye*. Mechanism and preparation of platinum nanoparticles for methanol oxidation reaction by electrochemical quartz microbalance. submission

139. X Ma, ... ..., G Liu, F Ye*,  C Xu, J Liu. Boosting electrocatalytic performance of CoFe LDH catalyst by P doping for oxygen evolving. submission


2024 (+ 合作10)

138. Y Zhang, N Xu*, B Gong, X Ye, Y Yang, Z Wang, B Zhuang, M Wang, W Yang, G Liu, JK Lee, J Qiao*A visible‐light‐driven CoS2/CuS@CNT‐C3N4 photocatalyst for high‐performance rechargeable zinc‐air batteries beyond 500 mW cm‒2Chinese Journal of Catalysis, 2024, 44:xxx. (IF 15.7, Q1)

137. B Zhou, N Xu*, T Lu, Y Wang, S Lou, D Cai, L Wu, W Yang, G Liu, JK Lee, J Qiao*. Dual-Carbon Assisted Oxygen Vacancy Engineering for Optimizing Mn(III) Sites to Enhance Zn–air Battery PerformancesAdv Funct Mater, 2024, 2414269. (IF 18.5, Q1)

136. G Huang, X Pan, Y Yang, B Zhou, B Wei, Y Wang, G Liu, C Xu, X Du, F Ye*, W Yang*Heterogenous Fe2P-NiFe layered double hydroxide nanostructures for boosting oxygen evolution reactionJournal of Alloys and Compounds, 2024, 1002: 175275. (IF 5.8, Q2)

135. Y Wang, K Wang, Z Yu, F Ye*, Y Feng, F Xiao, L Zhang, C Xu*, G Liu, J Liu. Insights to the differences in catalytic performance of under-rib and under-channel regions for PEM water electrolysis. Renew Energy, 2024, 235: 211283. (IF 9, Q1)

134. J Lv, D Yang, Z Shen, Z Lv, Z Shao, G Liu, H Yao, X Li*Strengthened Ozone Adsorption through Positive Electric Field-Induced Charge Migration on Various TiO2 Crystal Surfaces: A Mechanistic and Theoretical StudyEnvironmental Research, 2024, 235: 211283. (IF 7.7, Q2)

133. X Luo, N Xu, Y Zhou, X Yang, W Yang, G Liu, JK Lee, J Qiao*. Porous PVA skin-covered thin Zirfon-type separator as a new approach boosting high-rate alkaline water electrolysis beyond 1000 hours’ lifespaneScience, 2024, 100290. (IF 42.9)

132. MX Tran#, G Liu#R Ardhi, S-W Lee*, JK Lee*. A flexible fiber-shaped solar chargeable zinc–polyaniline battery with a fullerene-based electron transfer layerEnergy Storage Mater, 2024, 65:103145. (IF 20.831, Q1)

131. J Mao, Y Ci, J Liu, C Li, W Yang, Y Yun*, G Liu*, et al. Experimental and Theoretical Investigation of an Ionic Liquid-based Biphasic Solvent for Post-combustion CO2 Capture: Breaking Through the "Trade-off" Effect of Viscosity and LoadingChem Eng J, 2024, 491:151991. (IF 16.744, Q1)【1】

130. Y Bai, S Tian, ... ..., G Liu*. Bidirectional voltage regulation for integrated photovoltachromic device based on P3HT-electrochromic unit and perovskite/organic tandem solar cells. Small, 2024, 10.1002/smll.202402903. (IF 15.153, Q2)【1】

129. T Lu, N Xu, L Guo, B Zhou, Lingyu Dai, W Yang, JK Lee, G Liu, J Qiao. Constructing“π-π”reinforced bridge carbon nanofibers with high active Co-N/C@pyridine N/C@CNTs sites as free-standing bifunctional oxygen electrode for Zn-air batteries. Advanced Fiber Materials, 2024, https://doi.org/10.1007/s42765-024-00413-9 (IF 12.958, Q1)

128. J Liu, ... ..., Y Yun*, G Liu, et al. An amino acid ionic liquid-based biphasic solvent with low viscosity, small rich-phase volume, and high CO2 loading rate for efficient CO2 capture. Sep Purif Technol, 2024, 347: 127592. (IF 8.6, Q1 【3】

127. xueqi dong; xi luo; xiaohui yang; min wang; Wei Xiao; Yuyu Liu; Nengneng Xu; Woochul Yang, G Liu, J QiaoDouble-skeleton interpenetrating network-structured alkaline solid-state electrolyte enables flexible zinc-air batteries with enhanced power density and long-term cycle lifeJournal of Colloid And Interface Science, 2024, 672: 32-42 (IF 9.965, Q1)

126. J Shi, Y Sun, Y Peng, X Jiang*, J Li*, J Chen*, G Liu. Recycled solar-grade silicon kerf scraps and sandwiched by tunable porous carbon sheets as commercial anodesJ Energy Storage, 2024, 80:110164. (IF 9.4, Q2)

125. MX Tran, G Liu, J Park, S-W Lee*, JK Lee*. New insights into the interfacial characteristics of Poly(Acrylic Acid) binder and hydrated V2O5 cathode material for zinc-ion secondary batteries. Appl Surface Sci, 2024, 669: 160523. (IF 6.7, Q2) 


2023 (10 + 合作7)

124. R Ardhi, G Liu*, J Park, JK Lee*. Alkali Adatom-Amplified Schottky Contact and Built-in Voltage for Stable Zn-Metal AnodesEnergy Storage Mater, 2023, 54: 863-874. (IF 20.831, Q1) 1-3(5)/2

123. L Xiong#, K Yang#, H Fu#, JY Kim, R Ren, JK Lee*, W Yang*, G Liu*. Reversible Zn/polymer heterogeneous anodeCarbon Energy, 2023, 10.1002/cey2.370. (IF 21.556, Q1) 2(4)/2

122. L Xiong, Y Kim, H Fu, W Han, W Yang*, G Liu*. F-Doped Carbon Nanoparticles-Based Nucleation Assistance for Fast and Uniform Three-Dimensional Zn Deposition. Adv Sci, 2023, 10.1002/advs.202300398. (IF 17.521, Q1) 1-2(2)/2

121. W Han, H Lee, Y Liu, Y Kim, H Chu, G Liu*, W Yang*. Toward highly reversible aqueous zinc-ion batteries: nanoscale-regulated zinc nucleation via graphene quantum dots functionalized with multiple functional groups. Chem Eng J, 2023, 452: 139090. (IF 16.744, Q1) 

120. H Fu#, Y Liu#, ... ..., G Liu*. Ionic accelerator based on metal–semiconductor contact for fast electrode kinetics and durable Zn-metal anode. Chem Eng J, 2023, 468: 143642. (IF 16.744, Q1)  2(5)/2

119. L Wang, ... ..., C Zhan*, G Liu*. In-situ constructed SnO2 gradient buffer layer as a tight and robust interphase toward Li metal anodes in LATP solid state batteriesJ Energy Chem, 2023, 80: 89-98. (IF 13.599, Q1) . 3-4(5)/4

118. K Yang#, H Fu#, G Liu*, et al. Uniform metal sulfide@N-doped carbon nanospheres for sodium storage: universal synthesis strategy and superior performance. Energy Environ Mater, 2023, 6(2): accept. (IF 13.443, Q1) .

117. L Wang, ... ..., X Wang, G Liu*, C Zhan*Origin and regulation of interfacial instability for nickel-rich cathodes and NASICON-type Li1+xAlxTi2−x(PO4)3 solid electrolytes in solid-state lithium batteriesAppl Surface Sci, 2023, 619: 156741. (IF 7.392, Q1) . 3.5(5)/3

116. Z Zuo, G Yu, C Liu, G Liu*, F Liu*. Dissolution characteristics of black aluminum dross in Na3AlF6-AlF3-Al2O3 molten salt systemRare Metals, 2023,  https://doi.org/10.1007/s12598-023-02280-6. (IF 6.318, Q2) .. 4-5(5)/4

115. L Wang, Q Shi, C Zhan*, G Liu*One-step solid-state synthesis of Ni-rich cathode materials for Lithium Ion batteries. Materials, 2023, 16(8): 3079. (IF 3.748, Q3) ... 3-4(4)/3

114. L WangG Liu, et alRegulating Surface Oxygen Activity by Perovskite Coating Stabilized Ultrahigh-Nickel Layered Oxide CathodesAdv Mater, 2023, https://doi.org/10.1002/adma.202209483 (IF 32.086, Q1)

113. L WangG Liu, et al. Enabling an Intrinsically Safe and High-Energy-Density 4.5 V-Class Lithium-Ion Battery with Synergistically Incorporated Fast Ion Conductors. Adv Energy Mater, 2023, accept (IF 29.698, Q1) 3-4(9)/3

112. X Li*, Y Zhou, X Ma, X Ding, S Lai, X Li, Y Sun, G Liu, H Yao*. Self-powered wastewater purification and phosphorus recovery systems with novel self-filtering Al-air batteriesChem Eng J, 2023, 460: 141570. (IF 16.744, Q1) 2(3)/2

111. R He, T Lu, N Xu*, G Liu, J Qiao*. Ultra-thin hierarchical porous carbon coated metal phosphide self-assembled efficient tri-functional electrodes for overall water splitting and rechargeable zinc-air batteriesChem Eng J, 2023, 461: 141843. (IF 16.744, Q1)

110. J Shi, R Li, J Li*, G Liu. Surface-modification-assisted synthesis of in-situ graphene-doped carbon substrate coated silicon nanoparticles for boosting lithium storage performance. Powder Technology, 2023, 430: 118988 (IF 5.2, Q2)

109. J Li, H Zha, W Yu, J Shi, J Li, W Tang, Y Lin, K Zhu J Cheng, G Liu. Progress in Preparation and Properties of Porous Silicon Nitride Ceramics. Silicon, 2023, 15: 6631-6653. (IF 0.44, Q4)

108. X Li, Z Shen, J Lv, X Li, Y Yao, G Liu, H Yao*. Mechanisms of Positive Electric-Field-Enhanced Ti/Anatase TiO2 (1 0 1) Interfacial Adsorption of Ozone-Inert Pollutants: A Density Functional Theory StudyACS ES&T Engineering, 2023, 3(12): 2202-2212.


2022 (11 + 合作2)

107. R Ren, G Liu*, JK Lee*, et al. Photoactive g-C3N4/CuZIF-67 bifunctional electrocatalyst with staggered p-n heterojunction for rechargeable Zn-air batteriesAppl Catal B-Environ, 2022, 306: 121096. (IF 24.319, Q1)

106. H Fu, G Liu*et al. Highly active crystal planes-oriented texture for reversible high-performance Zn metal batteriesEnergy Storage Mater, 2022, 51: 550-558. (IF 20.831, Q1)

105. J Kim, G Liu*, R Ardhi, J Park, H Kim, J.K. Lee*. Stable Zn Metal Anodes with Limited Zn-Doping in MgF2 Interphase for Fast and Uniformly Ionic FluxNano-Micro Lett, 2022, 14: 46. (IF 23.655, Q1)

104. W Han, G Liu*et al. Interface engineering via in-situ electrochemical induced ZnSe for a stabilized zinc metal anode. Chem Eng J, 2022, 442: 136247. (IF 16.744, Q1) .

103. L Wang, ... ..., C Zhan*, G Liu*et al. New Insight on Correlation between the Electrochemical Stability and the Thermal Stability of High Nickel Cathode Materials. J Energy Chem, 2022, 72: 265-275. (IF 13.599, Q1) .

102. K Yang, Y Duan, G Liu*, et al. Smart ZnS@C Filler for Super-Anticorrosive Self-Healing Zinc-Rich Epoxy CoatingNano Res, 2022, 15: 4756-4764. (IF 10.269, Q1) .

101. L Wang, ... ..., X Wang, G Liu*, C Zhan*Enhanced high-voltage robustness of ultra-high nickel cathodes by constructing lithium-ion conductor buffer layer for highly stable lithium-ion batteriesAppl Surface Sci, 2022, 605: 154684. (IF 7.392, Q1) . 3-4(4)/4

100. R Wang#, L Wang#, ... ..., C Zhan*, G Liu*Controversy on necessity of cobalt in nickel-rich cathode materials and exploration of cobalt-free cathode materials for lithium-ion batteries. J Ind Eng Chem, 2022, 110: 120-130. (IF 6.76, Q2) ..

99. W Han, R Ardhi, G Liu*Dual impact of superior SEI and separator wettability to inhibit the lithium dendrite growthRare Metals, 2022,  41: 353-355. (IF 6.318, Q2) ..

98. L Xiong, H Fu, W Han, M Wang, W Yang*, G Liu*. Robust ZnS interphase for stable Zn metal anode of high-performance aqueous secondary batteriesInt J Min Met Mater, 2022, 29: 1053-1060. (IF 3.85, Q2)

97. F Ye, Y Cao, W Han, Y Yang, Y Feng, P Liu, C Xu, X Du, W Yang, G Liu*. A RuO2IrO2 electrocatalyst with an optimal composition and novel microstructure for oxygen evolving in the single cellKorean J Chem Eng, 2022, 39: 596-604. (基础版 IF 3.146, Q3) ....

96. J Shi, L Sheng, J LiG Liu. Green synthesis of high-performance porous carbon coated silicon composite anode for lithium storage based on recycled silicon kerf waste. J Alloys Compd, 2022, 919: 165854. (IF 6.371, Q2)

95. X Li, ...G Liu, et al. Structure–Activity Relationships of TiO2 nanoflower-coated Porous Ti Anodes in Electro-catazone process. Chem Eng J Adv, 2022, 11: 100347.


2021 (10 + 合作2)

94. R Ardhi, G Liu*, JK Lee*. Metal-Semiconductor Ohmic and Schottky Contact-Interfaces for Stable Li-Metal ElectrodesACS Energy Lett, 2021, 6: 1432–1442. (IF 23.991, Q1)

93. H Fu, G Liu*, et al. A Shape-Variable, Low-Temperature Liquid Metal–Conductive Polymer Aqueous Secondary Battery. Adv Funct Mater, 2021, 31(50): 2107062. (IF 19.924, Q1)

92. G Shim, Tran M X, G Liu*, D Byun, JK Lee*. Flexible, fiber-shaped, quasi-solid-state Zn-polyaniline batteries with methanesulfonic acid-doped aqueous gel electrolyteEnergy Storage Mater, 2021, 35: 739-749. (IF 20.831, ESI高被引, Q1)

91. L Xiong, G Liu*, H. Fu, M. Wang, J. Kim, W. Yang*, J.K. Lee*. Wearable eutectic gallium-indium liquid fuel cells. Energy Convers Manage, 2021, 247: 114729. (IF 11.533, Q1) .

90. W Han, G Liu*, W Seo, H Chu*, W Yang*. Nitrogen-doped carbon nanosphere-chains with tunable interlayer distance for superior pseudocapacitance-dominated zinc- and potassium-ion storageCarbon, 2021, 184: 534-543. (基础版 IF 11.307, Q1) .

89. B Li, Y Yan*, M Wang*, C Li, J Li*, W Yang, G Liu*. Superhydrophobic polymer membrane coated by mineralized β-FeOOH nanorods for direct contact membrane distillation. Desalination, 2021, 500: 114889. (基础版 IF 11.211, Q1) ..

88. J Li, Y Lin*, F Wang, J Shi, J Sun, B Ban, G Liu*, J Chen*. Progress in recovery and recycling of kerf-loss Silicon waste in photovoltaic industry. Sep Purif Technol, 2021, 254: 117581. (升级版 IF 9.136, ESI高被引, Q1) .

87. B Li, ... ..., G Liu*, et al. Direct Contact Membrane Distillation with Softening Pre-treatment for Effective Reclaiming Flue Gas Desulfurization Wastewater. Sep Purif Technol, 2021, 277:119637. (升级版 IF 9.136, Q1) .

86. Y Le, Y Yun*, M Wang*, W Liu, S Dong, K Yang, W Yang, G Liu*. N-isopropyl acrylamide / sodium acrylate hydrogel as draw agent for forward osmosis to concentrate esterification wastewaterKorean J Chem Eng, 2021, 38:975-981. (基础版 IF 3.146, Q3) ....

85. L Wang#, L Wang#, R Wang, R Xu*, C Zhan*, W Yang, G Liu*. Solid Electrolyte-Electrode Interface Based on Buffer Therapy in Solid-State Lithium BatteriesInt J Min Met Mater, 2021, 28(10): 1584-1602. (IF 3.85, Q2) ...

84. X Li, H Zhang, F Ma, S Cheng, Z Shen, J Min, Y Wang, J Zhang, G Liu. H Yao*. Electro-catazone treatment of an ozone-resistant drug: interfacial reaction kinetics , mechanisms and degradation sites. J Hazard Mater Adv, 2021, 4:100023.

83. X Li, Y Li, H Zhang, Z Shen, S Cheng, G Liu. H Yao*. Electro-catazone treatment of an ozone-resistant drug: effect of sintering temperature on TiO2 nanoflower catalyst on porous Ti gas diffuser anodesChinese Chem Lett, 2021, 32(10): 3221-3225. (IF 8.455, Q2) ..

 

2020 (8 + 合作2+1)

82. J Kim, G Liu*, et al. Functionalized Zn@ZnO hexagonal pyramid array for dendrite-free and ultrastable zinc metal anodes. Adv Funct Mater, 2020, 30(36): 2004210. (IF 19.924, Q1) .

81. R Ardhi, M Tran, M Wang, G Liu*, et al. Chemically tuned, bi-functional polar interlayer for TiO2 photoanodes in fibre-shaped dye-sensitized solar cells. J Mater Chem A, 2020, 8: 2549-2562. (基础版 IF 14.511, Q1) ..

80. M Tran, R Ardhi, G Liu*, et al. Plasma-polymerized C60-coated CNT interlayer with physical and chemical functions for lithium-sulfur batteries. Chem Eng J, 2020, 401: 126075. (IF 16.744, Q1) .

79. H Yu, G Liu*, et al. Plasma-assisted surface modification on electrode interface for flexible fiber-shaped Znpolyaniline batteries. ACS Appl Mater Interfaces, 2020, 12(5): 5820-5830. (基础版 IF 10.383, Q1) .

78. G Liu*, et al. Cathode catalyst layer with nanofiber microstructure for direct methanol fuel cells. Energy Convers Manage, 2020, 218, 113013. (IF 11.533, Q1) .

77. F Ye, Z Wang, C Xu*, M Yuan, P Liu, W Yang, G Liu*. Mechanism and kinetic study of pulse electrodeposition process of Pt/C catalysts for fuel cells. Renew Energy, 2020, 145: 514-520. (升级版 IF 8.634, Q1) .

76. S Dong, Y Yun*, M Wang*, W Yang, C Li, G Liu*. Superhydrophobic alumina hollow ceramic membrane modified by TiO2 nanorod array for vacuum membrane distillationJ Taiwan Inst Chem E, 2020, 117:56-62. (基础版 IF 5.477, Q2) ...

75. Z Yang, M Wang, G Liu*, et al. Octahedral Pt-Ni nanoparticles prepared by pulse-like hydrothermal method for oxygen reduction reaction. Ionics, 2020, 26(1): 293-300. (基础版 IF 2.961, Q3) ....

74. HS Choi, X Yang, G Liu, et al. Development of Co-hemin MOF/chitosan composite based biosensor for rapid detection of lactose. J Taiwan Inst Chem E, 2020, 113: 1-7. (基础版 IF 5.477, Q2) ...

73. J Li, J Li, Y Lin*, J Shi, B Ban, G Liu, et al. Separation and recovery of refined Si from Al-Si melt by modified Czochralski method. Materials, 2020, 13(4): 996. (IF 3.748, Q3) ...

72. 张伟斌, 陈善俊, 吴青峰, 刘桂成, .中韩研究生凝聚态物理教育模式比较研究.课程教育研究, 2020, (4):154.

 

2019 (5 + 合作3)

71. J Kim, G Liu*, et al. Synthesis and characterization of a hierarchically structured three-dimensional conducting scaffold for highly stable Li metal anodes. J Mater Chem A, 2019, 7(20): 12882-12892. (基础版 IF 14.511, Q1) ..

70. A Kim#, R Ardhi#, G Liu#, et al. Hierarchical hollow double core-shell carbon nanowall-encapsulated p-n SnO/SnO2 heterostructure anode for high-performance lithium-ion-based energy storage. Carbon, 2019, 153: 62-72. (基础版 IF 11.307, Q1) .

69. M Wang, M Chen, Z Yang, G Liu*, et al. High-performance and durable cathode catalyst layer with hydrophobic C@PTFE particles for Low-Pt loading membrane assembly electrode of PEMFC. Energy Convers Manage, 2019, 191: 132-140. (IF 11.533, Q1) .

68. L Wang, M Wang, J Lu, B Zhang, G Liu*, et al. Anti-fogging performances of liquid metal surface modified by ZnO nano-petals. J Taiwan Inst Chem E, 2019, 95: 65-70. (基础版 IF 5.477, Q2) ...

67. L Wang, J Lu, M Wang, REA Ardhi, J Liu*, G Liu*, et al. Enhanced adhesion between liquid metal ink and the wetted printer paper for direct writing electronic circuits. J Taiwan Inst Chem E, 2019, 95: 202-207. (基础版 IF 5.477, Q2) ...

66. T Wang, Y Yun*, M Wang*, C Li, G Liu, et al. Superhydrophobic ceramic hollow fiber membrane planted by ZnO nanorod-array for high-salinity water desalination. J Taiwan Inst Chem E, 2019, 105, 17-27. (基础版 IF 5.477, Q2) ...

65. Q An, B Zhang, G Liu, et al. Directional droplet-actuation and fluid-resistance reduction performance on the bio-inspired shark-fin-like superhydrophobic surface. J Taiwan Inst Chem E, 2019, 97: 389-396. (基础版 IF 5.477, Q2) ...

64. Z Liang, Y Yun*, M Wang*, G Liu, et al. Performance evaluation of interfacial-polymerization-fabricated aquaporin-based biomimetic membranes in forward osmosis. RSC Adv, 2019, 9(19): 10715-10726. (IF 4.036, Q3) ...

 

2018 (13 + 合作1)

63. G Liu*, et al. Soft, highly elastic, and discharge current-controllable eutectic gallium-indium liquid metal-air battery operated at room temperature. Adv Energy Mater, 2018, 8(6): 1703652. (IF 29.698, Q1) .

62. R Ardhi, GLiu*, et al. Self-relaxant super-elastic matrix derived from C60 incorporated Sn nanoparticles for ultra-high-performance Li-ion batteries. ACS Nano, 2018, 12(6): 5588-5604. (IF 18.027, Q1) .

61. G Liu*, et al. Hierarchically structured photoanode with enhanced charge collection and light harvesting abilities for fiber-shaped dye-sensitized solar cells. Nano Energy, 2018, 49: 95-102. (IF 19.069, Q1) .

60. M Wang, G Liu*, et al. ZnO nanorod array modified PVDF membrane with super- hydrophobic surface for vacuum membrane distillation application. ACS Appl Mater Interfaces, 2018, 10: 13452-13461. (基础版 IF 10.383, Q1) .

59. J Kim, A Kim, G Liu*, et al. Li4SiO4-based artificial passivation thin film for improving interfacial stability of Li metal anodes. ACS Appl Mater Interfaces, 2018, 10 (10): 8692-8701. (基础版 IF 10.383, Q1) .

58. F Ye, C Xu*, G Liu*, et al. Effect of pulse electrodeposition parameters on electrocatalytic activity of methanol oxidation and morphology of Pt/C catalyst for direct methanol fuel cells. Energy Convers Manage, 2018, 160: 85-92. (IF 11.533, Q1) .

57. M Wang, M Chen, Z Yang, Y Wang, Y Wang, G Liu*, et al. A study on fuel additive of methanol for room temperature direct methanol fuel cells. Energy Convers Manage, 2018, 168: 270-275. (IF 11.533, Q1) .

56. X Li, G Liu*, et al. Enhanced power generation in a single-chamber dynamic membrane microbial fuel cell using a nonstructural air-breathing activated carbon fiber felt cathode. Energy Convers Manage, 2018, 172: 98-104. (IF 11.533, Q1) .

55. F Ye, C Xu*, G Liu*, et al. A novel PtRuIr nanoclusters synthesized by selectively electrodepositing Ir on PtRu as highly active bifunctional electrocatalysts for oxygen evolution and reduction. Energy Convers Manage, 2018, 155: 182-187.  (IF 11.533, ESI高被引, Q1) .

54. X Li, G Liu*, et al. Power generation in dual chamber microbial fuel cells using dynamic membranes as separator. Energy Convers Manage, 2018, 165, 488-494. (IF 11.533, Q1) .

53. G Liu*, et al. Study on a stretchable, fiber-shaped, and TiO2 nanowire array-based dye-sensitized solar cell with electrochemical impedance spectroscopy method. Electrochimi Acta, 2018, 267: 34-40. (IF 7.336, Q2) ..

52. L Wang, C Teng, J Liu, M Wang, G Liu*, et al. Robust anti-icing performance of silicon wafer with hollow micro-/ nano-structured ZnO. J Ind Eng Chem, 2018, 62: 46-51. (IF 6.76, Q2) ..

51. M Wang#, W Yu#, Y Zhang, JY Woo, Y Chen, B Wang, Y Yun*, G Liu*, et al. A novel flexible micro-ratchet/ZnO nano-rods surface with rapid recovery icephobic performance. J Ind Eng Chem, 2018, 62: 52-57. (IF 6.76, Q2) ..

50. J Li, M Wang, G Liu, et al. Enhanced iodide removal from water by nano-silver modified anion exchanger. Ind Eng Chem Res, 2018, 57 (51): 1740117408. (IF 4.326, Q3) ...

 

2017 (8 + 合作3+1)

49. M Halim#, G Liu#, et al. Pseudocapacitive characteristics of low-carbon silicon oxycarbide for lithium-ion capacitors. ACS Appl Mater Interfaces, 2017, 9: 20566-20576. (基础版 IF 10.383, Q1) .

https://pubs.acs.org/doi/abs/10.1021/acsami.7b04069

48. G Liu*, et al. Design of 3-electrode system for in situ monitoring direct methanol fuel cells during long-time running test at high temperature. Appl Energy, 2017, 197: 163-168. (IF 11.446, Q1) .

https://www.sciencedirect.com/science/article/pii/S0306261917304117

47. G Liu*, et al. A gradient activation method for direct methanol fuel cells. Energy Convers Manage, 2017, 138: 54-60. (IF 11.533, Q1) .

https://www.sciencedirect.com/science/article/pii/S0196890417300699

46. M Wang, G Liu*, et al. Microstructure-modified proton exchange membranes for high-performance direct methanol fuel cells. Energy Convers Manage, 2017, 148: 753-758. (IF 11.533, Q1) .

https://www.sciencedirect.com/science/article/pii/S0196890417305642

45. J Woo, A Kim, M Kim, S Lee, Y Sun, G Liu*, et al. Cu3Si-doped porous-silicon particles prepared by simplified chemical vapor deposition method as anode material for high-rate and long-cycle lithium-ion batteries. J Alloys Compd, 2017, 701: 425-432. (IF 6.371, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0925838817301615

44. X Liu, J Yu, X Li, G Liu*, et al. Effect of metal catalysts on the mechanism of hydrogen spillover in 3D covalent-organic frameworks. Chin Phys B, 2017, 26(2): 027302. (IF 1.652, Q3) ...

https://iopscience.iop.org/article/10.1088/1674-1056/26/2/027302/meta

43. Yu Chen, G Liu*, et al. Icephobic performance on the aluminum foil-based micro-/nanostructured surface. Chin Phys B, 2017, 26(4): 046801. (IF 1.652, Q3) ...

https://iopscience.iop.org/article/10.1088/1674-1056/26/4/046801/meta

42. X Li*, L Guo, S Sun, X Zhang, G Liu*, et al. N-doped activated carbons derived from biological sludge generated in petrochemical industries for supercapacitor applications. J Nanosci Nanotech, 2017, 17(9): 6655-6661. (IF 1.134, Q4) ....

https://www.ingentaconnect.com/content/asp/jnn/2017/00000017/00000009/art00072

41. X Li, S Sun, X Zhang, G Liu, et al. Combined eletro-catazone/electro-peroxone process for rapid and effective Rhodamine B degradation. Sep Purif Technol, 2017, 178:189-192. (升级版 IF 9.136, Q1) .

https://www.sciencedirect.com/science/article/pii/S1383586616305688

40. W Liu, L Li, M Chen, X Ding, M Wang, G Liu, et al. Nucleation mechanism of CH3NH3PbI3 with two-step method for rational design of high performance perovskite solar cells. J Alloys Compd, 2017, 697: 374-379. (IF 6.371, Q2) ..

https://www.sciencedirect.com/science/article/pii/S092583881633496X

39. H Wang, X Li, K Yan, G Liu, et al. Low-temperature synthesis of near-monodisperse globular MoS2 nanoparticles with sulphur powders. Nano, 2017, 12: 1750091. (IF 1.438, Q4) ....

https://www.worldscientific.com/doi/abs/10.1142/S1793292017500916

38. 刘文兵, 李亮, 刘桂成, . 钙钛矿太阳能电池稳定性研究进展. 有色金属科学与工程, 2017, 8(2): 31-42.

 

2016 (5+1 + 合作1)

37. G Liu, et al. A novel photoanode with high flexibility for fiber-shaped dye sensitized solar cells. J Mater Chem A, 2016, 4: 5925-5931. 2016 Journal of Materials Chemistry A HOT Paper (基础版 IF 14.511, Q1) ..

https://pubs.rsc.org/en/content/articlehtml/2016/ta/c5ta10488b

36. G Liu*, et al. Effect of fabrication and operating parameters on electrochemical property of anode and cathode for direct methanol fuel cells. Energy Convers Manage, 2016, 122: 366-371. (IF 11.533, Q1) .

https://www.sciencedirect.com/science/article/pii/S0196890416304873

35. G Liu*, et al. A study on anode diffusion layer for performance enhancement of a direct methanol fuel cell. Energy Convers Manage, 2016, 126: 697-703. (IF 11.533, Q1) .

https://www.sciencedirect.com/science/article/pii/S0196890416307415

34. X Li#, G Liu#, et al. A novel electro-catalytic ozonation process for treating Rhodamine B using a mesoflowerstructured TiO2-coated porous titanium gas diffuser anode. Sep Purif Technol, 2016, 165:154-159. (升级版 IF 9.136, Q1) .

https://www.sciencedirect.com/science/article/pii/S1383586616301575

33. X Li#, G Liu#, et al. Utilization of a TiO2 mesoflower interlayer in a tubular porous Ti membrane for enhanced electrocatalytic filtration. Electrochimi Acta, 2016, 218: 318-324. (IF 7.336, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0013468616318229

32. W Song, H Wang, G Liu, et al. Improving the photovoltaic performance and flexibility of fiber-shaped dye-sensitized solar cells with atomic layer deposition. Nano Energy, 2016, 19: 1-7. (IF 19.069, Q1) .

https://www.sciencedirect.com/science/article/pii/S2211285515004243

31. 魏浩杰, 姜颖, 王慢想, 刘桂成*. DMFC 放电模式与性能稳定性研究. 电池, 2016, 46: 4-7.

 

2015及以前 (6+9 + 合作6+9)

30. G Liu, et al. An 8.07% efficient fiber dye-sensitized solar cell based on a TiO2 micron-core and multilayer structure photoanode. Nano Energy, 2015, 11: 341-347. (IF 19.069, Q1) .

https://www.sciencedirect.com/science/article/pii/S2211285514201856

29. G Liu*, et al. Structure optimization of cathode microporous layer for a direct methanol fuel cell. Appl Energy, 2015, 147: 396-401. (IF 11.446, Q1) .

https://www.sciencedirect.com/science/article/pii/S0306261915003050

28. G Liu, et al. Anode catalyst layer with novel microstructure for a direct methanol fuel cell. Int J Hydrogen Energy, 2012, 37(10): 8659-8663. (IF 7.139, Q2) ..

https://www.sciencedirect.com/science/article/pii/S036031991200362X

27. G Liu, et al. The performance and mechanism of multi-step activation of MEA for DMFC. Int J Hydrogen Energy,2010, 35(22): 12341-12345. (IF 7.139, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0360319910017477

26. G Liu, et al. A novel anode catalyst layer with multilayer and pore structure for improving the performance of a direct methanol fuel cell. Int J Energy Res, 2013, 37(11): 1313-1317. (基础版 IF 4.672, Q2) ...

https://onlinelibrary.wiley.com/doi/full/10.1002/er.2931

25. G Liu, et al. Pore-forming technology and performance of MEA for direct methanol fuel cells. J Chem Technol Biot, 2013, 88(5): 818-822. (基础版 IF 3.709, Q3) ...

https://onlinelibrary.wiley.com/doi/full/10.1002/jctb.3906

24. Z Zhao, G Liu, et al. Dye-sensitized solar cells based on hierarchically structured porous TiO2. J Mater Chem A, 2015, 3: 11320-11329. 2015 Journal of Materials Chemistry A HOT Paper (基础版 IF 14.511, Q1) ..

23. H Zhou, X Ding, G Liu, et al. Preparation and characterization of ultralong spinel lithium manganese oxide nanofiber cathode via electrospinning method. Electrochimica Acta, 2015, 152: 274-279. (IF 7.336, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0013468614023779

22. Y Wang, G Liu, et al. Study on stability of self-breathing DFMC with EIS method and three-electrode system. Int J Hydrogen Energy, 2013, 38(21): 9000-9007. (IF 7.139, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0360319913011956

21. X Ding, H Zhou, G Liu, et al. Electrochemical evaluation of LiAl0.05Ni0.05Mn1.9O4 cathode material synthesized via electrospinning method. J Alloys Compd, 2015, 632: 147-151. (IF 6.371, Q2) ..

https://www.sciencedirect.com/science/article/pii/S0925838815002613

20.H Zhou, X Ding, G Liu, et al. Characterization of cathode from LiNixMn2-xO4 nanofibers by electrospinning for Li-ion batteries. RSC Adv, 2015, 5: 108007-108014. (IF 4.036, Q3) ...

https://pubs.rsc.org/en/Content/ArticleLanding/RA/2015/C5RA21884E#!divAbstract

19. X Wang*, X Xie, M Wang, G Liu, et al. Critical materials and technology in direct methanol fuel cells. Progress in Chemistry, 2011(2/3): 509-519. (IF 1.044, Q3) ...

http://manu56.magtech.com.cn/progchem/EN/abstract/abstract10551.shtml

18. 刘桂成, . DMFC 性能稳定性改善措施的探索. 电池, 2015, 45: 237-240.

17. 刘桂成, . 直接甲醇燃料电池性能衰减分析. 电池, 2015, 45: 128-131.

16. 刘桂成, . 直接甲醇燃料电池稳定性的初步研究. 电池, 2012, 42(5): 253-256.

15. 刘桂成, . 放电电流密度对 DMFC 交流阻抗的影响. 电池, 2012, 42(4): 183-185.

14. 刘桂成, . DMFC 用膜电极组件的结构及性能. 电池, 2012, 42(2): 66-69.

13. 刘桂成, . 液体进料直接甲醇燃料电池工况的匹配及优化. 电池, 2012, 42(1): 7-10.

12. 刘桂成, . 直接甲醇燃料电池技术研究进展.中国稀土学报, 2012,30(专辑): 1012-1017.

11. 刘桂成, . 直接甲醇燃料电池运行参数的研究.华南师范大学学报, 2009, (z1): 29-31.

10. 刘桂成, . 浓酸条件下高浓度铁离子的测定技术. 河北化工, 2006, 29(6): 47-48.

9. 任现平, 刘桂成, . 过渡金属氧化物用作锂空气电池催化剂. 电池, 2014, 44(1): 6-8.

8. 王同涛, 刘桂成, . 燃料电池产业最新进展及对我国的启示.科技进步与对策, 2013, 30(5): 74-77.

7. 田哲, 刘桂成, . 磺化皂土改性直接甲醇燃料电池用 Nafion . 电池, 2013, 43(3): 123-126.

6. 姜颖, 刘桂成, . PEMFC 新型流场的设计与数值模拟. 电池工业, 2013, 18(1): 67-72.

5. 王一拓, 刘桂成, . 微型直接甲醇燃料电池的研究进展. 电池, 2012, 42(6) 346-349.

4. 王荣耕, 刘桂成. 头孢克肟活性酯(mica )的合成.精细与专用化学品. 2009, 17(8): 24-26.

3. 吴旭苹,彭冰霜,刘桂成,.染料敏化太阳能电池中多孔电极制备及性能.北科大学学报, 2014, 36(11): 1540. (EI)

2. 王新东*,王一拓, 刘桂成,.直接甲醇燃料电池电催化机理及多孔电极传质过程研究.电化学, 2013, 19(3):246.

1. 王同涛, 叶锋, 方勇, 刘桂成, . DMFC 阳极催化层结构优化研究. 华南师范大学学报, 2009, (z1): 34-35.

28+2:85/83/81/79-76/70/69/63-54/49-46/37-35/31/30///41/3311+5:84/80/71/53-51/45/38/34/29/28///40/25-227+8:82/68/67/44/43/27/26///74/73/66-64/50/21/202+1:75/42///19;;32/18-10///75/39/9-1

 

中、韩专利(25项获权

25. Wyang, G Liu, L Xiong, H Fu, W Han, 아크릴아마이드-포스폰산계 폴리머, 이의 제조방법 및 이로 코팅된 금속 전극을 포함하는 수계 이차전지 Acrylamide-phosphonic acid based polymer, preparation method thereof and aqueous secondary battery compri sing metal electrode coated with the same. 10-2726270. (韩国授权, 2024.10.31)

24. JK Lee, W Choi, HG Jung, JM Woo, G Liu, et al. Ladder structure carbon-tinoxide-sulfur composite, preparation method thereof and cathode material for lithium-sulfur battary comprising the same.  10-1794317. (韩国授权)

23. JK Lee, JM Woo, G Liu, et al. Lithium metal electrode and method of manufacturing the same.  10-1979349. (韩国授权)

22. JK Lee, JM Woo, G Liu, et al. Eutectic liquid metal-air batteries comprising liquid metal electrode and method of preparation thereof.  10-2171532. (韩国授权)

21.xs 刘桂成,等. 一种适用于金属板材精确剪切的操作平台专利号2016205449702.

20.xs 刘桂成,等. 一种含铁原料全铁含量的检测系统专利号2016205401949.

19.xs 刘桂成,等. 一种气缸推动的金属板材精确剪切操作平台专利号2016206944389.

18. 邹德春,刘桂成,等. /二氧化钛微米锥-纳米线电极及其制备方法和应用专利号2014105453402.

17.x 王海军,刘桂成,等. 一种气缸推动的金属板材精确剪切的剪板机专利号2016206944181.

16.x 从俊强,刘桂成,等. 一种冶金实验试样承载薄片的清洗装置专利号2016206723795.

15.x 田超,刘桂成,等. 一种便于精确剪切金属板材的操作平台专利号2016207885829.

14.x 王海军,从俊强,刘桂成,等. 一种便于精确剪切金属板材的剪板设备专利号2016207885636.

13.xs 王海军,从俊强,刘桂成,等. 一种全铁检测过程中的含铁原料溶解装置专利号2016207885392.

12.x 从俊强,付兵,刘桂成,等. 一种冶金试样承载薄片的清洗系统专利号2016206723808.

11.x 王海军,从俊强,付兵,刘桂成,等. 一种冶金试样承载薄片的清洗、干燥系统专利号2016206723776.

10.x 王新东,刘桂成,等. 直接甲醇燃料电池用三维网络结构膜电极的制备方法专利号2011100034428.

9.xs 王新东,刘桂成,等. 一种便携式直接甲醇燃料电池阳极流场板专利号2010202180913.

8. 邹德春,王辉,宋卫星,刘桂成. 一种单分散球状纳米二硫化钼及其制备方法和应用专利号2015107175054.

7. 凌海涛,王海军,从俊强,刘桂成. 一种用于钢液脱夹杂的钢液净化剂专利号2017103896965.

6. 王海军,从俊强,凌海涛,杨建,刘桂成. 一种采用钢液净化剂精炼钢液的方法专利号2017103896700.

5. 王海军,从俊强,凌海涛,杨建,刘桂成. 一种钢液净化剂的制备方法专利号2017103896842.

4. 王新东,,刘桂成(4),等. 一种粉体材料电导率与膜电极阻抗的测试装置及方法专利号2013100572222.

3.x 付兵,,刘桂成(6位发明人). 一种冶金实验过程中的酸碱稀释、混合装置专利号2016205452048.

2.x 付兵,,刘桂成(6位发明人). 一种适用于金属板材精确剪切的剪板机专利号2016205449967.

1. 李新洋,郑建中,刘桂成. 一种兼具臭氧异相催化-电催化功能的多孔钛臭氧曝气器.  专利CN107021583B.