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2024年

126. An S-Scheme Artificial Photosynthetic System with H-TiO2/g-C3N4 Heterojunction coupled with MXene Boosts Solar H2 Evolution

Depeng Meng, Xiaowen Ruan*, Minghua Xu, Dongxu Jiao, Guozhen Fang, Yu Qiu, Yueyang Zhang, Haiyan Zhang, Sai Kishore Ravi*, and Xiaoqiang Cui*

Journal of Materials Science & Technology, 2025, 211(10), 22-29. 1区,IF 11.2)

125. Amorphization-Driven RhRu Bimetallene Enhances Water Dissociation Kinetics

Jiandong Wu#, , Manman Liu# , Jinchang Fan , Yu Qiu , Wenting Lu , Xiaofeng Fan* , Wei Zhang , Lei Zhang* and Xiaoqiang Cui*

Advanced Functional Materials, 2024, Just accepted.  (1区,IF 18.5) 

124. Surface-Segregated IrCo Nanoparticles on CoO Nanosheets with Ultralow Ir Loading for Efficient Acidic Water Splitting

Bilal Zaman, Jinchang Fan, Dewen Wang, Huafeng Fan, Ming Gong, Muhammad Faizan and Xiaoqiang Cui*

ChemCatChem, 2024, Early View3区,IF 3.8)

123. Iso-elemental ZnIn2S4/Zn3In2S6 Heterojunction with Low Contact Energy Barrier Boosts Artificial Photosynthesis of Hydrogen Peroxide

Xiaowen Ruan#, Shengli Zhao#, Minghua Xu#, Dongxu Jiao, Jing Leng, Guozhen Fang, Depeng Meng, Zhifeng Jiang, Shengye Jin, Xiaoqiang
Cui*, and Sai Kishore Ravi*

Advanced Energy Materials, 2024, Early View. (1区,IF 24.4) 

122. Double Loading of Nickel Phosphide Surface for Efficient Hydrogen Evolution Reaction

Junyu Wang#, Fuyu Tian#, Lei Zhang, Haiyan Zhang, Jinchang Fan, Lijun Zhang, Tianyi Xu* and Xiaoqiang Cui*

Journal of Colloid And Interface Science, 2024,  673, 284-2901区,IF 9.4)

121. Interfacial engineering layered bimetallic oxyhydroxides for efficient oxygen evolution reaction

Xiaolin Zhang, Huanjun Xu, Qiang Shi, Wei Sun, Xu Han, Dan Jiang, Yang Cao, Danfeng He* and Xiaoqiang Cui*

Journal of Colloid And Interface Science, 2024, 670, 142-151. 1区,IF 9.4)

120. Schematic diagram representation the introduction of selenium and iron synergistically modulate the d-band center of Ni3S2 to enhance oxygen evolution reaction (OER) and urea oxidation reaction (UOR)

Shan Xu#, Dongxu Jiao#, Xiaowen Ruan, Zhaoyong Jin, Yu Qiu, Jinchang Fan, Lei Zhang,  Weitao Zheng and Xiaoqiang Cui*

Journal of Colloid And Interface Science, 671, 46-55. 1区,IF 9.4)

119. O-2p Hybridization Enhanced Transformation of Active γ-NiOOH by Chromium Doping for Efficient Urea Oxidation Reaction

Shan Xu#, Dongxu Jiao#, Xiaowen Ruan, Zhaoyong Jin, Yu Qiu, Zhipeng Feng, Lirong Zheng, Jinchang Fan, Weitao Zheng* and Xiaoqiang Cui*

Advanced Functional Materials, 2024, Early View. DOI:10.1002/adfm.202401265. (1区,IF 18.5) 

118.Modulation of Sulfur Vacancies in ZnIn2S4/MXene Schottky Heterojunction Photocatalyst Promotes Hydrogen Evolution

Minghua XuXiaowen Ruan*Depeng MengGuozhen FangDongxu JiaoShengli ZhaoZheyang LiuZhifeng JiangKaikai BaTengfeng XieWei ZhangJing LengShengye JinSai Kishore Ravi*, and Xiaoqiang Cui*

Advanced Functional Materials, 2024, Early ViewDOI:10.1002/adfm.202402330. (1区,IF 18.5) 

117.Tensile Strain-Mediated Bimetallene Nanozyme for Enhanced Photothermal Tumor Catalytic Therapy

Jiandong  Wu#, Qihui  Liu#, Dongxu  Jiao#, Bin  Tian#, Qiong  Wu, Xin  Chang, Hongyu  Chu,Shan Jiang, Qi Yang,Tao Liu, Yue Zhang, Wei Zhang, Jinchang Fan, Xiaoqiang Cui* and Fangfang Chen*

Angewandte Chemie International Edition, 2024, 63(24), e202403203.  (1区,IF 16.1

116. Transition Metal-Based Catalysts for Urea Oxidation Reaction (UOR): Catalyst Design Strategies, Applications, and Future Perspectives

Shan Xu, Xiaowen Ruan*, Muthusankar Ganesan, Jiandong Wu, Sai Kishore Ravi*,  and Xiaoqiang Cui*

Advanced Functional Materials, 2024, 34(18), 2313309(1区,IF 18.5) 

115. Boosting Electrocatalytic Carbon Dioxide Reduction via Self-Relaxation of Asymmetric Coordination in Fe-Based Single Atom Catalyst

Zhaoyong Jin# , Dongxu Jiao#, Yilong Dong, Lin Liu, Jinchang Fan, Ming Gong, Xingcheng Ma, Ying Wang, Wei Zhang, Lei Zhang,* Zhi Gen Yu, Damien Voiry, Weitao Zheng,* and Xiaoqiang Cui*

Angewandte Chemie International Edition, 2024, 63(6), e202318246. (1区,IF 16.1) 

114. Atomic Dispersed Hetero-Pairs for Enhanced Electrocatalytic CO2 Reduction

Zhaoyong Jin, Meiqi Yang, Yilong Dong, Xingcheng Ma, Ying Wang, Jiandong Wu, Jinchang Fan, Dewen Wang, Rongshen Xi, Xiao Zhao, Tianyi Xu, Jingxiang Zhao*, Lei Zhang*, David J. Singh, Weitao Zheng* and Xiaoqiang Cui*

Nano-Micro Letters2024, 16(1), 4.(1区,IF 31.6)


113. In Situ Construction of Built-In Opposite Electric Field Balanced Surface Adsorption for Hydrogen Evolution Reaction

Tianyi Xu, Fuyu Tian, Dongxu Jiao, Jinchang Fan, Zhaoyong Jin, Lei Zhang, Wei Zhang, Lirong Zheng, David J. Singh, Lijun Zhang, Weitao Zheng*, and Xiaoqiang Cui*

Small, 2024, 20(19), 2309249. (1区,IF 13.0

112. Catalyzing Artificial Photosynthesis with TiO2 Heterostructures and Hybrids – Emerging Trends in a Classical yet Contemporary Photocatalyst

Xiaowen Ruan#, Shijie Li#, Chengxiang Huang, Weitao Zheng,* Xiaoqiang Cui* and Sai Kishore Ravi* 

Advanced Materials2024,36(17), 2305285. (1区,IF 27.4)

111. Artificial Photosynthetic System with Spatial Dual Reduction Site Enabling Enhanced Solar Hydrogen Production

Xiaowen Ruan, Depeng Meng, Chengxiang Huang, Minghua Xu, Dongxu Jiao, Hui Cheng, Yi Cui, Zhiyun Li, Kaikai Ba, Tengfeng Xie, Lei Zhang, Wei Zhang, Jing Leng, Shengye Jin, Sai Kishore Ravi*, Zhifeng Jiang*, Weitao Zheng*, Xiaoqiang Cui*, and Jiaguo Yu

Advanced Materials, 2024, 36(9), 2309199. (1区,IF 27.4) 

110.  Functional MXenes: Progress and Perspectives on Synthetic Strategies and Structure–Property Interplay for Next-Generation Technologies

Depeng Meng#, Minghua Xu#, Shijie Li, Muthusankar Ganesan, Xiaowen Ruan*, Sai Kishore Ravi*, and Xiaoqiang Cui* 

Small, 2024, 20(4), 2304483. (1区,IF 13.0) 


2023年

109. Atomically Dispersed CrOX on Pd Metallene for CO-Resistant Methanol Oxidation

Yu Qiu#, Jinchang Fan#, Jiandong Wu, Wenting Lu, Shengwei Wang, Dewen Wang, Xin Ge, Xiao Zhao, Wei Zhang, Weitao Zheng*, and Xiaoqiang Cui* 

Nano Letters, 2023, 23(20), 9555-9562.1区,IF 9.6)


108. A Twin S-Scheme Artificial Photosynthetic System with Self-Assembled Heterojunctions yields Superior Photocatalytic Hydrogen Evolution Rate

Xiaowen Ruan, Chengxiang Huang, Hui Cheng, Zhiquan Zhang, Yi Cui, Zhiyun Li, Tengfeng Xie, Kaikai Ba, Haiyan Zhang, Lei Zhang, Xiao Zhao, Jing Leng, Shengye Jin, Wei Zhang, Weitao Zheng, Sai Kishore Ravi*, Zhifeng Jiang*, Xiaoqiang Cui*, and Jiaguo Yu 

Advanced Materials2023, 35(6), 2209141(1区,IF 27.4) 


107. Spatially Confined PdHx Metallenes by Tensile Strained Atomic Ru Layers for Efficient Hydrogen Evolution

Jinchang Fan#, Zhipeng Feng#, Yajing Mu, Xin Ge, Dewen Wang, Lei Zhang, Xiao Zhao, Wei Zhang, David J. Singh, Jingyuan Ma, Lirong Zheng, Weitao Zheng*, and Xiaoqiang Cui* 

Journal of the American Chemical Society, 2023, 145(10), 5710-5717.(1区,IF 14.4)

106. Nickel metaphosphate supported ruthenium for all pH hydrogen evolution: From single atom, cluster to nanoparticle

Dewen Wang, Dongxu Jiao, Ming Gong, Huafeng Fan, Yuting Chen, Lezhi Wang, Jinchang Fan, Jiandong Wu, David J. Singh, Jingxiang Zhao*, Weitao Zheng*, and Xiaoqiang Cui*

Applied Catalysis B: Environmental, 2023, 325, 122331. (1区,IF 22.1)

105. Enhancing Photocatalytic Hydrogen Evolution by Synergistic Benefits of MXene Cocatalysis and Homo-Interface Engineering

Xiaowen Ruan#, Depeng Meng#, Chengxiang Huang, Minghua Xu, Xin Wen, Kaikai Ba, David J. Singh, Haiyan Zhang, Lei Zhang, Tengfeng Xie, Wei Zhang, Weitao Zheng*, Sai Kishore Ravi*, and Xiaoqiang Cui*

Small Methods, 2023, 7(11), 2300627. (1区,IF 10.7)  


104. High-valence Zr-incorporated nickel phosphide boosting reaction kinetics for highly efficient and robust overall water splitting

Huafeng Fan, Jingjing Jia, Dewen Wang, Jinchang Fan, Jiandong Wu, Jingxiang Zhao*, and Xiaoqiang Cui*

Chemical Engineering Journal2023, 455, 140908. (1区,IF 13.3)

103. Two-Dimensional Self-assembly of Unconventional fcc Ru3Ir Nanocrystals for Efficient and Robust Acidic Water Oxidation

Jinchang Fan#, Yajing Mu#, Xin Ge, Lei Zhang, Weiwei Li, Hongliang Dong, Dewen Wang, Wei Zhang, Jingyuan Ma, Weitao Zheng*, and Xiaoqiang Cui*

ACS Catalysis, 2023, 13(7), 41204126. (1区,IF 11.3) 

102. Ion-Assisted Preparation of Bimetallic Porous Nanodendrites for Active and Stable Water Electrolysis 

Yanchao Xu, Shuting Wei, Lei Zhang*, Qiong Wu, Feng Wang, Jinchang Fan, Dewen Wang, Tianzhun Wu*, and Xiaoqiang Cui*

Small, 2023, 19(17), 2207332. (1区,IF 13.0) 

101. Enhancing Water-Dissociation Kinetics and Optimizing Intermediates Adsorption Free Energy of Cobalt Phosphide Via High-Valence Zr Incorporating for Alkaline Water Electrolysis

Huafeng Fan, Dongxu Jiao, Jinchang Fan, Dewen Wang, Bilal Zaman, Wei Zhang, Lei Zhang, Weitao Zheng*, Xiaoqiang Cui*

Journal of Energy Chemistry, 2023, 83, 119-127.1区,IF 14.0)

100. Outer delocalized electron aggregation of bromide bridged core–shell CuBr@C for hydrogen evolution reaction

Tianyi Xu,  Ruoyu Li,  Lei Zhang,  Dongxu Jia ,  Yilong Dong,  Ming Gong,  Dantong Zhang,  Jinchang Fan, Dewen Wang, Yanhua Liu, 

Xiao Zhao, Wei Zhang, Weitao Zheng*, and Xiaoqiang Cui*

Nano Research, 2023,  16(5), 6608-6614.  (1区,IF 9.5)

99. Applying Machine-Learning Screening of Single Transition Metal Atoms Anchored on N-Doped Γ-Graphyne for Carbon Monoxide Electroreduction toward C1 Products

Dongxu Jiao, Dantong Zhang, Dewen Wang, Jinchang Fan, Xingcheng Ma, Jingxiang Zhao, Weitao Zheng*, Xiaoqiang Cui*

Nano Research, 2023, 16(8), 11511-11520. (1区,IF 9.5)

98. Kinetically and Thermodynamically Expediting Elementary Steps Via High-Valence Cr-Incorporated of Nickel Selenide for Water Electrolysis

Huafeng Fan, Dongxu Jiao, Jinchang Fan, Dewen Wang, Bilal Zaman, Wei Zhang, Lei Zhang, Weitao Zheng, Xiaoqiang Cui* 

Nano Research, 2023, 17. 1199–1208. (1区,IF 9.5)

97. Metal-Oxide Heterointerface Synergistic Effects of Copper-Zinc Systems for Highly Selective CO2-to-CH4 Electrochemical Conversion

Xingcheng Ma, Dongxu Jiao, Jinchang Fan, Yilong Dong, and Xiaoqiang Cui* 

Inorganic Chemistry Frontiers2023, 10, 168-173.  (1区,IF 6.1)  

96. Superior Hydrophilic Porous Graphitic Carbon Nitride for Enhanced Photocatalytic Hydrogen Evolution

Minghua Xu, Depeng Meng, Ammar Bin Yousaf, Xiaowen Ruan, Xiaoqiang Cui*

Materials Letters, 2023, 350, 134888. (2区,IF 2.7)


95.  Ultrathin origami accordion‐like structure of vacancy‐rich graphitized carbon nitride for enhancing COphotoreduction

Guangri JiaZhongxu WangMing GongYing WangLu Hua Li, Yilong Dong, Lulu Liu, Lei Zhang Jingxiang Zhao*Weitao Zheng*, and Xiaoqiang Cui*

Carbon Energy, 2023,5(4), e270. (1区, IF 19.5) 

94. Ni Center Coordination Reconstructed Nanocorals for Efficient Water Splitting

Tianyi Xu, Dongxu Jiao, Manman Liu, Lei Zhang, Xiaofeng Fan, Lirong Zheng, Weitao Zheng*, and Xiaoqiang Cui*

Advanced Scinece, 2023, 10(4), 2205605. (1区,IF 14.3)

2022年

93. Atomically Dispersed MoOx on Rhodium Metallene Boosts Electrocatalyzed Alkaline Hydrogen Evolution

Jiandong Wu, Jinchang Fan*, Xiao Zhao, Ying Wang, Dewen Wang, Hongtai Liu, Lin Gu, Qinghua Zhang, Lirong Zheng, David J. Singh, Xiaoqiang Cui*, and Weitao Zheng

Angewandte Chemie International Edition, 2022, 61(34)e202207512. (1区,IF 16.6)

92. Favorable Energy Band Alignment of TiO2 Anatase/Rutile Heterophase Homojunctions Yields Photocatalytic Hydrogen Evolution with Quantum Efficiency Exceeding 45.6%

Xiaowen Ruan, Xiaoqiang Cui*, Yi Cui, Xiaofeng Fan, Zhiyun Li, Tengfeng Xie, Kaikai Ba, Guangri Jia, Haiyan Zhang, Lei Zhang, Wei Zhang, Xiao Zhao, Jing Leng, Shengye Jin, David J. Singh, and Weitao Zheng 

Advanced Energy Materials, 2022, 12(16), 2200298. (1区,IF 27.8) 

91. Amorphous Carbon Interconnected Ultrafine CoMnP with Enhanced Co Electron Delocalization Yields Pt-Like Activity for Alkaline Water Electrolysis

Yanchao Xu, Shuting Wei, Linfeng Gan* , Lei Zhang*, Feng Wang, Qiong Wu, Xiaoqiang Cui*, and Weitao Zheng

Advanced Functional Materials, 2022,  32(21), 2112623. (1区,IF 19.0)

90. Emerging two-dimensional metallenes: Recent advances in structural regulations and electrocatalytic applications

Jiandong Wu, Xiao Zhao*, Xiaoqiang Cui*, and Weitao Zheng*

Chinese Journal of Catalysis, 2022. 43(11), 2802-2814. (1区,IF 16.5)

89. Br-induced P-poor defective nickel phosphide for highly efficient overall water splitting

Tianyi Xu, Dongxu Jiao, Lei Zhang, Haiyan Zhang, Lirong Zheng, David J.Singh, Jingxiang Zhao, Weitao Zheng, and Xiaoqiang Cui*

Applied Catalysis B: Environmental, 2022, 316. 121686. (1区,IF 22.1) 

88. Temperature Liquid Metal Synthesis of Nanoporous Copper-Indium Heterostructures Yields Efficient Carbon Dioxide Reduction to Syngas

Xingcheng Ma, Feng Wang, Dongxu Jiao, Dantong Zhang, Xiao Zhao, David Singh, Jingxiang Zhao*, Xiaoqiang Cui*, and Weitao Zheng, 

Science China Materials, 2022, 65, 3504-3512. (1区,IF 8.1)

87. Wet-chemistry hydrogen doped TiO2 with switchable defects control for photocatalytic hydrogen evolution

Guangri Jia#, Ying Wang#, Xiaoqiang Cui*, Hengzhong Zhang, Jingxiang Zhao, Lu Hua Li, Lin Gu, Qinghua Zhang, Lirong Zheng, Jiandong Wu, Qiong Wu, David J. Singh, Weiwei Li, Lei Zhang, and Weitao Zheng,

Matter, 2022, 5, 206-218. (1区,IF 18.9) 

86. Upconversion fluorescence of MXene nanosheets and the sensitive detection of L-tryptophan

Feng Wang, Hongye Wang, Xiaoqiang Cui *, and Yang Liu*

Sensors & Diagnostics2022, 1, 1080.  (IF 无) 

85. Intramolecular heterostructured carbon nitride with heptazine-triazine for  enhanced photocatalytic hydrogen evolution

Xiaowen Ruan, Xiaoqiang Cui*, Guangri Jia, Jiandong Wu, Jingxiang Zhao*,  David J. Singh, Yanhua Liu, Haiyan Zhang, Lei Zhang, and Weitao Zheng*

Chemical Engineering Journal2022, 428, 132579. (1区,IF 15.1) 

84Electron Cloud Density Localized Graphitic Carbon Nitride with Enhanced Optical Absorption and Carrier Separation towards Photocatalytic Hydrogen Evolution

Xiaowen RuanZhongxu WangZhong WeiHaiyan ZhangLei ZhangXiao ZhaoDavid J. SinghJingxiang Zhao*, Xiaoqiang Cui*, and Weitao Zheng

Applied Surface Science,  2022, 601, 154294. (1区,IF 6.7) 

83. Asymmetric Embedded Benzene Ring in Graphite Carbon Nitride Enhanced Photocatalytic Hydrogen Evolution in Visible Light

Ming Gong, Zhong Wei, and Xiaoqiang Cui* 

Nano, 2022, 17(12), 2250099.4区,IF 1.2

2021年

82. Coordination Number Regulation of Molybdenum Single-Atom Nanozyme Peroxidase-like Specificity

Ying Wang, Guangri Jia, Xiaoqiang Cui*, Xiao Zhao, Qinghua Zhang, Lin Gu, Lirong Zheng, Lu Hua Li, Qiong Wu, David J. Singh, Daiju Matsumura, Takuya Tsuji, Yi-Tao Cui, Jingxiang Zhao*, and Weitao Zheng

Chem2021, 7, 436-449.1区,IF 23.5

81. Stable Bimetallene Hydride Boosts Anodic CO Tolerance of Fuel Cells

Jiandong Wu, Xiaoqiang Cui*, Jinchang Fan, Jingxiang Zhao, Qinghua Zhang, Guangri Jia, Qiong Wu, Dantong Zhang, Changmin Hou, Shan Xu, Dongxu Jiao, Lin Gu, David J. Singh, and Weitao Zheng

ACS Energy Letters, 2021. 6(5): 1912-1919.1区,IF 22.0

80. 2D Bismuthene Metal Electron Mediator Engineering Super Interfacial Charge Transfer for Efficient Photocatalytic Reduction of Carbon Dioxide

Dantong Zhang, Xiaoqiang Cui*, Lulu Liu, Yanchao Xu, Jingxiang Zhao, Jianhui Han, and Weitao Zheng

ACS Applied Materials & Interfaces, 2021. 13(18): 21582-21592.1区,IF 9.5

79. Fe(III)-C3N4 hybrids photocatalyst for efficient visible-light driven nitrogen fixation

Hui Zeng, Lulu Liu, Dantong Zhang, Ying Wang, Zhenhua Li, Chang Liu, Lei Zhang, and Xiaoqiang Cui*

Materials Chemistry and Physics, 2021. 258: 123830.(2区,IF 4.6

78.  MOF-derived FeNiCoOX hierarchical hollow nanocages for oxygen evolution reaction

Ying Liu, Guangri Jia, Qiong Wu, Dantong Zhang, Jiandong Wu, Yage Yin, Shiran Sai, Ziwang Guo, and Xiaoqiang Cui*

Materials Letters, 2021. 291: 129564.(2区,IF 3.0


2020年

77. Hydrogen Stabilized RhPdH 2D Bimetallene Nanosheets for Efficient Alkaline Hydrogen Evolution

Jinchang Fan, Jiandong Wu, Xiaoqiang Cui*, Lin Gu, Qinghua Zhang, Fanqi Meng, Bing-Hua Lei, David J. Singh, and Weitao Zheng

Journal of the American Chemical Society, 2020, 142, 3645-3651.(1区,IF 15.0)

76. Ultrasensitive and Selective Determination of Carcinoembryonic Antigen Using Multifunctional Ultrathin Amino-Functionalized Ti3C2-MXene Nanosheets

Qiong Wu, Ningbo Li, Ying Wang, Yanchao Xu, Jiandong Wu, Guangri Jia, Fujian Ji, Xuedong Fang*, Fangfang Chen*, and Xiaoqiang Cui*

Analytical Chemistry2020, 92, 3354-3360.(1区,IF 7.4)

B1

75. Ultrasensitive detection of microRNA using a bismuthene-enabled fluorescence quenching biosensor

Tianyu Xue, Sudhakara Reddy Bongu, Hao Huang, Weiyuan Liang, Yingwei Wang, Feng Zhang, Zhongyuan Liu, Yupeng Zhang*, Han Zhang*, and Xiaoqiang Cui*

Chemical Communications, 2020, 56(51), 7041-7044.2区,IF 4.9

74. Shape Controllable Synthesis of Bi-Based Perovskite Superconductor Microcrystals via a Mild Hydrothermal Method

Shan Wang, Xin Wang, Long Yuan*, Guangpeng Ma, Jiaqi Zhang*, Yuan Zhang, Xiaoqiang Cui*, Xiaofeng Wu, and Dayong Lu*

Crystal Growth & Design, 2020, 20(4), 2123-2128.1区,IF 3.8)

73. Copper-linked 1T MoS2/Cu2O Heterostructure for Efficient Photocatalytic Hydrogen Evolution

Yage Yin, Shuting Wei, Lei Zhang, Ziwang Guo, Haihua Huang, Shiran Sai, Jiandong Wu, Yanchao Xu, Ying Liu, Lirong Zheng, Xiaofeng Fan, and Xiaoqiang Cui*

Chemical Research in Chinese Universities2020, 36, 1122-1127.3区,IF 3.1


2019年

72. Single-atom cobalt array bound to distorted 1T MoS2 with ensemble effect for hydrogen evolution catalysis

Kun Qi, Xiaoqiang Cui*, Lin Gu, Shansheng Yu, Xiaofeng Fan, Mingchuan Luo, Shan Xu, Ningbo Li, Lirong Zheng, Qinghua Zhang, Jingyuan Ma, Yue Gong, Fan Lv, Kai Wang, Haihua Huang, Wei Zhang, Shaojun Guo*, Weitao Zheng*, and Ping Liu

Nature Communications, 2019, 10(1), 5231. 1区,IF 16.6


71. Bottom-up growth of homogeneous Moiré superlattices in bismuth oxychloride spiral nanosheets

Lulu Liu, Yuanhui Sun, Xiaoqiang Cui*, Kun Qi, Xin He, Qiaoliang Bao, Weiliang Ma, Jiong Lu, Hanyan Fang, Peng Zhang, Lirong Zheng, Liping Yu, David J. Singh, Qihua Xiong, Lijun Zhang*, and Weitao Zheng*

Nature Communications2019, 10(1), 4472. 1区,IF 16.6


70. Ultrasensitive detection of miRNA with an antimonene-based surface plasmon resonance sensor

Tianyu Xue, Weiyuan Liang, Yawen Li, Yuanhui Sun, Yuanjiang Xiang, Yupeng Zhang, Zhigao Dai, Yanhong Duo, Leiming Wu, Kun Qi, Bannur Nanjunda Shivananju, Lijun Zhang*, Xiaoqiang Cui*, Han Zhang*, and Qiaoliang Bao* 

Nature Communications, 2019, 10(1), 28. 1区,IF 16.6


69. Iridium-triggered phase transition of MoS2 nanosheets boosts overall water splitting in alkaline media

Shuting Wei, Xiaoqiang Cui*, Yanchao Xu, Bo Shang, Qinghua Zhang, Lin Gu*, Xiaofeng Fan, Lirong Zheng, Changmin Hou, Haihua Huang, Sisi Wen, and Weitao Zheng* 

ACS Energy Letters2019, 4(1), 368-374.1区,IF 22.0

68. Rational design of Fe-N/C hybrid for enhanced nitrogen reduction electrocatalysis under ambient conditions in aqueous solution

 Ying Wang, Xiaoqiang Cui*, Jingxiang Zhao, Guangri Jia, Lin Gu, Qinghua Zhang, Lingkun Meng, Zhan Shi, Lirong Zheng, Chunyu Wang, Ziwei Zhang, and Weitao Zheng*

ACS Catalysis2019, 9,336-344.1区,IF 12.9

67. Lattice -Mismatch-Induced Ultrastable 1T-Phase MoS2–Pd/Au for Plasmon-Enhanced Hydrogen Evolution

Bo Shang, Xiaoqiang Cui*, Lin Jiao, Kun Qi, Yingwei Wang, Jinchang Fan, Yuanyuan Yue, Haiyu Wang, Qiaoliang Bao, Xiaofeng Fan, Shuting Wei, Wei Song, Zhiliang Cheng, Shaojun Guo, and Weitao Zheng*

Nano Letters2019, 19(5), 2758-2764.1区,IF 10.8


66. Asymmetric embedded benzene ring enhances charge transfer of carbon nitride for photocatalytic hydrogen generation 

Guangri Jia, Ying Wang, Xiaoqiang Cui*, Zhenxing Yang, Lulu Liu, Haiyan Zhang, Qiong Wu, Lirong Zheng, and Weitao Zheng*

Applied Catalysis B: Environmental2019, 258, 117959.1区,IF 22.1

65. Interstitial Hydrogen Atom Modulation to Boost Hydrogen Evolution in Pd-Based Alloy Nanoparticles

 Jinchang Fan, Xiaoqiang Cui*, Shansheng Yu, Lin Gu, Qinghua Zhang, Fanqi Meng, Zhangquan Peng, Lipo Ma, Jing-Yuan Ma, Kun Qi, Qiaoliang Bao, and Weitao Zheng

ACS Nano2019, 13(11), 12987-12995.1区,IF 17.1

64. Revealing the Intrinsic Peroxidase-Like Catalytic Mechanism of Heterogeneous Single-Atom Co–MoS2

Ying Wang, Kun Qi, Shansheng Yu, Guangri Jia, Zhiliang Cheng, Lirong Zheng, Qiong Wu, Qiaoliang Bao, Qingqing Wang, Jingxiang Zhao*, Xiaoqiang Cui*, and Weitao Zheng 

Nano-Micro Letters, 2019, 11, 102.1区,IF 26.6

63. Elucidating the mechanism of the structure-dependent enzymatic activity of Fe–N/C oxidase mimics

Ying Wang, Ziwei Zhang, Guangri Jia, Lirong Zheng, Jingxiang Zhao*, and Xiaoqiang Cui* 

Chemical Communications2019, 55(36), 5271-5274.2区,IF 4.9

62. sp2 C-Dominant O-Doped Hierarchical Porous Carbon for Supercapacitor Electrodes

 Lei Zhang, Xiangyan Shen, Kelong Ai, Xiaoqiang Cui*, Haoxiang Wang, and Weitao Zheng*

ACS Applied Energy Materials2019, 2(10), 7009-7018.2区,IF 6.4

61. Facile band alignment of C3N4/CdS/MoS2 sandwich hybrid for efficient charge separation and high photochemical performance under visible-light

Dantong Zhang, Tianyi Xu, Mengyuan Cao, Aojv Liu, Qiang Zhao, Lei Zhang, Haiyan Zhang, Tianyu Xue, Xiaoqiang Cui*, and Weitao Zheng* 

Powder Technology2019, 351, 222-228.2区,IF 5.2


60. Highly active zigzag-like Pt-Zn alloy nanowires with high-index facets for alcohol electrooxidation

Yanchao Xu, Xiaoqiang Cui*, Shuting Wei, Qinghua Zhang, Lin Gu, Fanqi Meng, Jinchang Fan, and Weitao Zheng*

Nano Research2019, 12(5), 1173-1179.1区,IF 9.9


59. Sulfur-doped Cu3P|S electrocatalyst for hydrogen evolution reaction

Tianyi Xu, Shuting Wei, Xiaolin Zhang, Dantong Zhang, Yanchao Xu, and Xiaoqiang Cui*

Materials Research Express2019, 6(7), 075501.4区,IF 2.3

58. A 2D transition metal carbide MXene-based SPR biosensor for ultrasensitive carcinoembryonic antigen detection

Qiong Wu, Ningbo Li, Ying Wang, Ying liu, Yanchao Xu, Shuting Wei, Jiandong Wu, Guangri Jia, Xuedong Fang, Fangfang Chen*, and Xiaoqiang Cui*

Biosensors and Bioelectronics2019, 144, 111697. 1区,IF 12.545


57. In-situ one-step electrospray fabrication of polyvinylidene fluoride encapsulated CsPbBr3 spheres with high stability and cell imaging application

Feng Wang, Hongye Wang, Asghar Ali, Yimeng Zhang, Xiaoqiang Cui*, and Yang Liu*

Inorganic Chemistry Communications2019, 106, 99-103.4区,IF 3.8


56. Strong interactions in molybdenum disulfide heterostructures boosting the catalytic performance of water splitting: A short review

Bo Shang, Lin Jiao, Qiaoliang Bao, Changming Li, and Xiaoqiang Cui*

Nano Materials Science2019, 1(4), 231-245.1区,IF 9.9


55. In situ encapsulated nickel-copper nanoparticles in metal-organic frameworks for oxygen evolution reaction

Xingcheng Ma, Kun Qi, Shuting Wei, Lei Zhang*, and Xiaoqiang Cui*

Journal of Alloys and Compounds2019, 770, 236-242.2区,IF 6.2


54. Bi-metal–organic frameworks type II heterostructures for enhanced photocatalytic styrene oxidation

Lulu Liu, Lei Zhang, Feng Wang, Kun Qi, Haiyan Zhang, Xiaoqiang Cui*, and Weitao Zheng*

Nanoscale2019, 11(16), 7554-7559.1区,IF 6.7


53. Delicate excavated trimetallic Prussian blue analogues for efficient oxygen evolution reactions

Jie Liu, Shuting Wei, Ningbo Li, Lei Zhang*, and Xiaoqiang Cui*

Electrochimica Acta2019, 299, 575-581.2区,IF 6.6

B3

52. CuO/ZnO heterojunction nanoarrays for enhanced photoelectrochemical water oxidation

Chang Liu, Fanling Meng, Lei Zhang*, Dantong Zhang, Shuting Wei, Kun Qi, Jinchang Fan, Haiyan Zhang, and Xiaoqiang Cui*

Applied Surface Science2019, 469, 276-282.1区,IF 6.7


51. Nanoporous gold induced vertically standing 2D NiCo bimetal-organic framework nanosheets for non-enzymatic glucose biosensing

Weiwei Li, Shuang Lv, Ying Wang, Lei Zhang*, and Xiaoqiang Cui*

Sensors and Actuators B: Chemical2019, 281, 652-658.1区,IF 8.4

B1

2018年

50. Nanoporous sulfur-doped copper oxide (Cu2OxS1-x) for overall water splitting

 Xiaolin Zhang, Xiaoqiang Cui*, Yuanhui Sun, Kun Qi, Zhao Jin, Shuting Wei, Weiwei Li, Lijun Zhang, and Weitao Zheng*

ACS Applied Materials & Interfaces2018, 10(1), 745-752.1区,IF 9.5


49. Interfacial engineered surface morphology evolution of Au@Pd core-shell nanorods

Yanchao Xu, Xiaoqiang Cui*, Kun Qi, Shuting Wei, Qiyu Wang, and Weitao Zheng*

Nanoscale2018, 10, 21161-21167.1区,IF 6.7


48. Anti-site defects-assisted enhancement of electrogenerated chemiluminescence from in situ Mn2+-doped supertetrahedral chalcogenide nanoclusters

Feng Wang, Jian Lin, Shansheng Yu, Xiaoqiang Cui*, Asghar Ali, Tao Wu, and Yang Liu*

ACS Applied Materials & Interfaces2018, 10, 38223-38229.1区,IF 9.5


47. Precise mono-Cu+ ion doping enhanced electrogenerated chemiluminescence from Cd–In–S supertetrahedral chalcogenide nanoclusters for dopamine detection

Feng Wang, Jian Lin, Hongye Wang, Shansheng Yu, Xiaoqiang Cui*, Asghar Ali, Tao Wu, and Yang Liu*

Nanoscale2018, 10(34), 15932-15937.1区,IF 6.7


46. Stabilized monolayer 1T MoS2 embedded in coooh for highly efficient overall water splitting

Bo Shang, Pengfei Ma, Jinchang Fan, Lin Jiao, Zijian Liu, Zheyu Zhang, Nuo Chen, Zhiliang Cheng, Xiaoqiang Cui*, and Weitao Zheng*

Nanoscale2018, 10, 12330–12336.1区,IF 6.7


45. Passivation of the surface imperfection of TiO2 by using ZIF-8 for efficient carrier separation/transfer

Haotian Pi, Dantong Zhang, Xinmeng Zhang, Zhao Jin, Lei Zhang, Xiaoqiang Cui*, and Weitao Zheng*

Dalton Transactions2018, 47(1), 209-214.2区,IF 4.0


44.  Plasmonic nanograting enhanced fluorescence for protein microarray analysis of carcinoembryonic antigen (CEA)

Chang Liu, Fanling Meng, Baogang Wang, Lei Zhang, and Xiaoqiang Cui*

Analytical Methods2018, 10(1), 145-150.3区,IF 3.1


43. Ultrathin NiCo2O4 nanowalls supported on a 3D nanoporous gold coated needle for non-enzymatic amperometric sensing of glucose

Weiwei Li, Hui Qi, Baogang Wang, Qiyu Wang, Shuting Wei, Xiaolin Zhang, Ying Wang, Lei Zhang, and Xiaoqiang Cui*

Microchimica Acta2018, 185(2), 124.2区,IF 5.7

B2

42. Synergetic enhancement of oxygen evolution reaction by Ti3C2Tx nanosheets supported amorphous FeOOH quantum dots

Ningbo Li, Shuting Wei, Yanchao Xu, Jie Liu, Jiandong Wu, Guangri Jia, and Xiaoqiang Cui*

Electrochimica Acta2018, 290, 364-368.2区,IF 6.6


41. Highly carbon-doped TiO2 derived from MXene boosting the photocatalytic hydrogen evolution

Guangri Jia, Ying Wang, Xiaoqiang Cui*, and Weitao Zheng*

ACS Sustainable Chemistry & Engineering2018, 6, 13480-13486.1区,IF 8.4

40. 1D alignment of ZnO@ZIF-8/67 nanorod arrays for visible-light-driven photoelectrochemical water splitting

Guangri Jia, Lulu Liu, Lei Zhang, Dantong Zhang, Ying Wang, Xiaoqiang Cui*, and Weitao Zheng

Applied Surface Science2018, 448, 254-260.1区,IF 6.7

39. Synthesis of ultrathin wrinkle-free PdCu alloy nanosheets for d-band electrons modulating efficient methanol oxidation

Jinchang Fan, Shansheng Yu, Kun Qi, Chang Liu, Lei Zhang, Haiyan Zhang, Xiaoqiang Cui*, and Weitao Zheng*

Journal of Materials Chemistry A2018, 6, 8531-8536.1区,IF 11.9


38. Robust synthesis of high-performance N-graphite hollow nanocatalysts based on the ostwald ripening mechanism for oxygen reduction reaction electrocatalysis

 Kelong Ai, Zelun Li, Weiwei Li, Jinchang Fan, Xiaoqiang Cui*, and Weitao Zheng*

Particle & Particle Systems Characterization, 2018, 35, 1800266.2区,IF 2.7


2017年

37. An Anti-photocorrosive photoanode based on a CdS/NixSy@NF heterostructure for visible-light-driven water splitting

Dantong Zhang, Lulu Liu, Lei Zhang, Kun Qi, Haiyan Zhang, and Xiaoqiang Cui*

 Applied Surface Science2017, 420, 161-166.1区,IF 6.7


36. Graphene quantum dots decorated graphene as an enhanced sensing platform for sensitive and selective detection of copper(II)

Ying Wang, Shujie Zhao, Meina Li, Weiwei Li, Yingying Zhao, Jurui Qi*, and Xiaoqiang Cui*

Journal of Electroanalytical Chemistry2017, 797(Supplement C), 113-120.2区,IF 4.5


35. Highly stable Au/Pd @mesoporous SiO2 yolk-shell hetero-nanostructures for plasmon-enhanced visible light driven catalytic reaction

Yajing Mu, Haiyan Zhang*, Weitao Zheng, and Xiaoqiang Cui*

New Journal of Chemistry2017, 41, 786-792.3区,IF 3.3


34. Untrasmall Bi2S3 Nanodots for in vivo X-ray CT Imaging-guided Photothermal Therapy of Cancer

Zelun Li, Kelong Ai, Zhe Yang, Tianqi Zhang, Jianhua Liu, and Xiaoqiang Cui*

RSC Advances2017, 7(47), 29672-29678.3区,IF 3.9


33. Photo-Reduced Cu/CuO Nanoclusters on TiO2 Nanotube Arrays as Highly Efficient and Reusable Catalyst

Zhao Jin, Chang Liu, Kun Qi, and Xiaoqiang Cui*

Scientific Reports20177, 39695 1-9.3区,IF 4.6


32. One-Pot Synthesis of Nanodendritic PtIr Alloy with High Electrochemical Activity for Ethylene Glycol Oxidation

Xuedong Gao, Lulu Liu, Qiyu Wang, Kun Qi, Zhao Jin, Weitao Zheng, and Xiaoqiang Cui*

Nano2017, 12(2), 1750026.4区,IF 1.2


31. Engineering Pt/Pd Interfacial Electronic Structures for Highly Efficient Hydrogen Evolution and Alcohol Oxidation

Jinchang Fan, Kun Qi, Lei Zhang, Haiyan Zhang, Shansheng Yu*, and Xiaoqiang Cui*

ACS Applied Materials & Interfaces2017, 9(21), 18008-18014.1区,IF 9.5


30. Morphology Pependence of Electrochemical Properties on Palladium Nanocrystals

Jinchang Fan, Kun Qi, Hong Chen, Weitao Zheng, and Xiaoqiang Cui*

Journal of Colloid and Interface Science2017, 490, 190-196.1区,IF 9.9


29. Scalable Preparation of Sized-Controlled Co-N-C Electrocatalyst for Efficient Oxygen Reduction Reaction

Kelong Ai, Zelun Li, and Xiaoqiang Cui*

Journal of Power Sources2017, 368, 46-56.1区,IF 9.2


2016年

28. Au纳米粒子/双层TiO2周期结构的制备及其对乙醇的电催化性质

金朝陈其汉郑梦佳赵鹏李倩, and 崔小强*

Journal of Inorganic Materials2016, 31(3), 241-247.3区,IF 1.7


27. R6G Molecule Induced Modulation of the Optical Properties of Reduced Graphene Oxide Nanosheets for Use in Ultrasensitive SPR Sensing

Tianyu Xue, Shansheng Yu, Xiaoming Zhang, Xinzheng Zhang*, Lei Wang, Qiaoliang Bao, Caiyun Chen, Weitao Zheng*, and Xiaoqiang Cui*

Scientific Reports2016, 6, 21254 1-8.3区,IF 4.6


26. One-Step Synthesis of a Self-Supported Copper Phosphide Nanobush for Overall Water Splitting

Shuting Wei, Kun Qi, Zhao Jin, Jiashu Cao, Weitao Zheng, Hong Chen, and Xiaoqiang Cui*

ACS Omega2016, 1(6), 1367-1373.3区,IF 4.1


25.  Plasmonic-Induced Inhibition and Enhancement of the Electrocatalytic Activity of Pd-Au Hetero-Nanoraspberries for Ethanol Oxidation

Qiyu Wang, Weitao Zheng*, Hong Chen, Bingsen Zhang, Dangsheng Su, and Xiaoqiang Cui* 

Journal of Power Sources2016316, 29-36.1区,IF 9.2


24. Synthesis of Silver Nanoprisms and Nanodecahedra for Plasmonic Modulating Surface-Enhanced Raman Scattering

Haitao Wang, Xiaoqiang Cui*, Weiming Guan, Xianliang Zheng, Hetong Zhao, Tianyu Xue, and Weitao Zheng*

Journal of Nanoscience and Nanotechnology2016, 16(7), 6829-6836.4区,IF 1.134


23.Supersaturation-Controlled Surface Structure Evolution of Pd@Pt Core-Shell Nanocrystals: Enhancement of the ORR Activity at a Sub-10 nm Scale

 Kun Qi, Weitao Zheng*, and Xiaoqiang Cui*

Nanoscale2016, 8(3), 1698-1703.1区,IF 6.7

B3

22. Decoration of the Inert Basal Plane of Defect-rich MoS2 with Pd Atoms for Achieving Pt-similar HER Activity

Kun Qi, Shansheng Yu, Qiyu Wang, Wei Zhang, Jinchang Fan, Weitao Zheng*, and Xiaoqiang Cui*

Journal of Materials Chemistry A2016, 4(11), 4025-4031.1区,IF 11.9


21. Plasmonic ZnO Nanorods/Au Substrates for Protein Microarrays with High Sensitivity and Broad Dynamic Range

Chang Liu, Fanling Meng, Weitao Zheng*, Tianyu Xue, Zhao Jin, Zhenxin Wang*, and Xiaoqiang Cui*

Sensors and Actuators B: Chemical2016, 228, 231-236.1区,IF 8.4


20. Highly Ordered Periodic Au/TiO2 Hetero-Nanostructures for Plasmon-Induced Enhancement of the Activity and Stability for Ethanol Electro-oxidation

 Zhao Jin, Qiyu Wang, Weitao Zheng*, and Xiaoqiang Cui*

ACS Applied Materials & Interfaces2016, 8(8), 5273-5279.1区,IF 9.5


19. A Stable and High Resolution Optical Waveguide Biosensor based on Dense TiO2/Ag Multilayer Film

Zhao Jin, Weiming Guan, Chang Liu, Tianyu Xue, Qiyu Wang, Weitao Zheng, and Xiaoqiang Cui*

Applied Surface Science2016, 377, 207-212.1区,IF 6.7


2015年以前发表的论文

18. In Situ Preparation of Porous Pd Nanotubes on a GCE for Non-Enzymatic Electrochemical Glucose Sensors

Qiang Wang, Qiyu Wang, Kun Qi, Tianyu Xue, Chang Liu, Weitao Zheng, and Xiaoqiang Cui*

Analytical Methods, 2015, 7, 8605-8610.3区,IF 3.1


17.  Syntheses and pharmacokinetics properties of an iloperidone pharmaceutical cocrystal

Tingting Zhang, Haitao Wang, Jiangtao Jia, Xiaoqiang Cui*, Qin Li, and Guangshan Zhu*

Inorganic Chemistry Communications, 2014, 39, 144-146.(3区,IF 3.8


16. Investigating the Interaction of Dye Molecules with Graphene Oxide by Using a Surface Plasmon Resonance Technique

Tianyu Xue, Zhao Wang, Weiming Guan, Changmin Hou, Zhan Shi, Weitao Zheng, and Xiaoqiang Cui*

RSC Advances, 2014, 4, 50789-50794.3区,IF 3.9


15. Surface Plasmon Resonance Technique for Directly Probing the Interaction of DNA and Graphene Oxide and Ultra-Sensitive Biosensing

Tianyu Xue, Xiaoqiang Cui*, Weiming Guan, Qiyu Wang, Chang Liu, Haitao Wang, Kun Qi, D. J. Singh, and Weitao Zheng*

Biosensors and Bioelectronics, 2014, 58, 374-379.1区,IF 12.6


14. A Nanoflower Shaped Gold-Palladium Alloy on Graphene Oxide Nanosheets with Exceptional Activity for Electrochemical Oxidation of Ethanol

Qiyu Wang, Xiaoqiang Cui*, Weiming Guan, Xiaoming Zhang, Chang Liu, Tianyu Xue, Haitao Wang, and Weitao Zheng*

Microchimica Acta, 2014, 181, 373-380.2区,IF 5.7

B2

13. Shape-Dependent Catalytic Activity of Oxygen Reduction Reaction (ORR) on Silver Nanodecahedra and Nanocubes

Qiyu Wang, Xiaoqiang Cui*, Weiming Guan, Lei Zhang, Xiaofeng Fan, Zhan Shi, and Weitao Zheng*

Journal of Power Sources, 2014, 269, 152-157.1区,IF 9.2


12. Kinetic Effects in the Photomediated Synthesis of Silver Nanodecahedra and Nanoprisms: Combined Effect of Wavelength and Temperature

Haitao Wang, Xiaoqiang Cui*, Weiming Guan, Xianliang Zheng, Hetong Zhao, Zhao Wang, Qiyu Wang, Tianyu Xue, Chang Liu, David J. Singh, and Weitao Zheng*

Nanoscale, 2014, 6, 7295-7302.1区,IF 6.7


11. Porous Single-Crystalline Palladium Nanoflowers with Enriched {100} Facets for Highly Enhanced Ethanol Oxidation

Kun Qi, Qiyu Wang, Weitao Zheng, Wei Zhang*, and Xiaoqiang Cui* 

Nanoscale, 2014, 6, 15090-15097.1区,IF 6.7


10. 以芘-炔为基块的共价有机骨架材料的设计合成与表征

张婷婷, 王海涛, 马和平, 孙福兴, 崔小强*, 朱广山*

Acta Chimica Sinica, 2013, 71, 1598—1602.(2区,IF 2.5

B4

9. Using Dissolution and Pharmacokinetics Studies of Crystal Form to Optimize the Original Iloperidone

Tingting Zhang, Yan Yang, Haitao Wang, Fuxing Sun, Xiaojun Zhao, Jiangtiao Jia, Jingrui Liu, Wei Guo, Xiaoqiang Cui*, Jingkai Gu*, and Guangshan Zhu*

Crystal Growth & Design, 2013, 13, 5261-5266.(1区,IF 3.8)


8. A Switch of the Oxidation State of Graphene Oxide on a Surface Plasmon Resonance Chip

Tianyu Xue, Xiaoqiang Cui*, Jianli Chen, Chang Liu, Qiyu Wang, Haitao Wang, and Weitao Zheng*

ACS Applied Materials & Interfaces, 2013, 5, 2096-2103.1区,IF 9.5


7. Synthesis of flower-shape palladium nanostructures on graphene oxide for electrocatalytic applications

Qiyu Wang, Xiaoqiang Cui*, Weiming Guan, Weitao Zheng, Jianli Chen, Xianliang Zheng, Xiaoming Zhang, Chang Liu, Tianyu Xue, Haitao Wang, Zhao Jin, and Hong Teng*

Journal of Physics and Chemistry of Solids, 2013, 74, 1470-1474.(2区,IF 4.0


6. Size Distribution-Controlled Preparation of Graphene Oxide Nanosheets with Different C/O Ratios

Jianli Chen, Xiaoming Zhang, Xianliang Zheng, Chang Liu, Xiaoqiang Cui*, and Weitao Zheng*

Materials Chemistry and Physics, 2013, 139, 8-11.(2区,IF 4.6)


5. Ultralfine Au Nanodots on Graphene Oxide for Catalytic Reduction of 4-Nitrophenol

Jianli Chen, Gang Cheng, Zhuangnan Li, fujun Miao, Xiaoqiang Cui*, and Weitao Zheng*

Nano, 2013, 8, 1350034.4区,IF 1.2


4. Well-Dispersed Palladium Nanoparticles on Graphene Oxide as a Non-Enzymatic Glucose Sensor

Qiyu Wang, Xiaoqiang Cui*, Jianli Chen, Xianliang Zheng, Chang Liu, Tianyu Xue, Haitao Wang, Zhao Jin, Liang Qiao, and Weitao Zheng*

RSC Advances, 2012, 2, 6245-6249.3区,IF 3.9


3. Transformation from Silver Nanoprisms to Nanodecahedra in a Temperature-Controlled Photomediated Synthesis

Haitao Wang, Xianliang Zheng, Jianli Chen, Dechao Wang, Qiyu Wang, Tianyu Xue, Chang Liu, Zhao Jin, Xiaoqiang Cui*, and Weitao Zheng*

The Journal of Physical Chemistry C, 2012, 116, 24268-24273.1区,IF 3.7


2. Engineering Graphene/carbon Nanotube Hybrid for Direct Electron Transfer of Glucose Oxidase and Glucose Biosensor

Jianli Chen, Xianliang Zheng, Fujun Miao, Jienan Zhang, Xiaoqiang Cui*, and Weitao Zheng*

Journal of Applied Electrochemistry, 2012, 42, 875-881.3区,IF 2.9)


1. One-Pot Photochemical Synthesis of Ultrathin Au Nanocrystals on Co-reduced Graphene Oxide and Its Application

Jianli Chen, Xiaoqiang Cui*, Qiyu Wang, Haitao Wang, Xianliang Zheng, Chang Liu, Tianyu Xue, Shumin Wang, and Weitao Zheng*

Journal of Colloid and Interface Science, 2012, 383, 140-147.1区,IF 9.9


以第一作者身份发表的SCI论文

12. Enhanced Fluorescence Microscopic Imaging by Plasmonic Nanostructures: From a 1d Grating to a 2d Nanohole Array

Xiaoqiang Cui, Keiko Tawa*, Kenji Kintaka, Junji Nishii. 

Advanced Functional Materials, 2010, 20(6), 945-950(1区,IF 19.0) 


11. Tailored Plasmonic Gratings for Enhanced Fluorescence Detection and Microscopic Imaging

Xiaoqiang Cui, Keiko Tawa*, Hironobu Hori, Junji Nishii.  

Advanced Functional Materials, 2010, 20(4), 546-553. (1区,IF 19.0) 


10. Duty Ratio-Dependent Fluorescence Enhancement through Surface Plasmon Resonance in Ag-Coated Gratings

Xiaoqiang Cui, Keiko Tawa*, Hironobu Hori, Junji Nishii

Applied Physics Letters, 2009, 95(13).  (1区,IF 4.0)

B2

9. Hyaluronan-Assisted Photoreduction Synthesis of Silver Nanostructures: From Nanoparticle to Nanoplate

Xiaoqiang Cui, Chang Ming Li*, Haifeng Bao, Xinting Zheng, Jianfeng Zang, Chui Ping Ooi, Jun Guo.

The Journal of Physical Chemistry C, 2008, 112(29), 10730-10734. (1区,IF 3.7) 


8. In Situ Fabrication of Silver Nanoarrays in Hyaluronan/Pdda Layer-by-Layer Assembled Structure

Xiaoqiang Cui, Chang Ming Li*, Haifeng Bao, Xinting Zheng, Zhisong Lu.  

Journal of Colloid and Interface Science, 2008, 327(2), 459-465. (1区,IF 9.9) 


7. Biocatalytic Generation of Ppy-Enzyme-Cnt Nanocomposite:  From Network Assembly to Film Growth

Xiaoqiang Cui, Chang Ming Li*, Jianfeng Zang, Qin Zhou, Ye Gan, Haifeng Bao, Jun Guo, Vee S. Lee, Shabbir M. Moochhala. 

The Journal of Physical Chemistry C, 2007, 111(5), 2025-2031. (1区,IF 3.7) 


6. Highly Sensitive Lactate Biosensor by Engineering Chitosan/Pvi-Os/Cnt/Lod Network Nanocomposite

Xiaoqiang Cui, Chang Ming Li*, Jianfeng Zang, Shucong Yu. 

Biosensors and Bioelectronics, 2007, 22(12), 3288-3292. (1区,IF 12.6) 


5. Chip Surface Charge Switch for Studying Histone–DNA Interaction by Surface Plasmon Resonance Biosensor

Xiaoqiang Cui, Fan Yang, Aixue Li, and Xiurong Yang*. 

Analytical Biochemistry, 2005, 342(1), 173-175. (2区,IF 2.9)


4. Detection of Ferritin by Surface Plasmon Resonance under Mass Transport-Limited

Xiaoqiang Cui, Yufang Sha, Fan Yang, Ping Yu, Junan Li, and Xiurong Yang*

Chinese Journal of Analytical Chemistry, 2005, 331639-1642. (4区,IF 1.2) 


3. Real-Time Immunoassay of Ferritin Using Surface Plasmon Resonance Biosensor

Xiaoqiang Cui, Fan Yang, Yufang Sha, and Xiurong Yang.  

Talanta, 2003, 60(1), 53-61. (1区,IF 6.1) 


2. Layer-by-Layer Assembly of Multilayer Films Composed of Avidin and Biotin-Labeled Antibody for Immunosensing

Xiaoqiang Cui, Renjun Pei, Zhenxin Wang, Fan Yang, Ying Ma, Shaojun Dong, and Xiurong Yang*

Biosensors and Bioelectronics, 2003, 18(1), 59-67. (1区,IF 12.6) 


1. Detection of Anti-Human Serum Albumin Antibody Using Surface Plasmon Resonance Biosensor

Xiaoqiang Cui, Renjun Pei, and Xiurong Yang*

Chinese Journal of Analytical Chemistry, 2000, 28954-955. (4区,IF 1.2) 



授权发明专利

2010年3月至今,以第一发明人身份申请中国发明专利47项,授权35项;申请澳大利亚发明专利2项,授权2项。

授权中国发明专利如下:

37) 题目  :一种双促进型硼掺杂手风琴状石墨氮化碳光催化剂及其制备方法、应用

专利号  : ZL202211429326.7

授权时间  :2023年12月12日 

发明人  : 崔小强; 席荣身; 靳兆勇; 阮晓文; 张雷

36) 题目  :溴化亚铜在电催化分解水中的应用 

专利号  : ZL202111626682.3

授权时间  :2023年8月18日 

发明人  :  崔小强; 李若昱; 许天翊; 田伏钰

35) 题目  :一种由CoFeNiOX组成的分层空心纳米笼电催化剂及其制备方法与应用 

专利号  : ZL202010294234.7 

授权时间  :2023年3月24日 

发明人  :  崔小强  、刘颖

34) 题目:一种异相磷化镍材料及其制备方法

专利号: ZL202111279190.1

授权时间:2022年12月16日

发明人:崔小强、许天翊、田伏钰、刘弘太、董易龙、宫铭

33) 题目:一种Ni2P/Ni12P5-xBrx富缺陷纳米片及其合成方法

专利号: ZL202111279211.X 

授权时间:  2022年12月2日 

发明人:崔小强、  许天翊、田伏钰、董易龙、刘弘太、武建栋 

32) 题目:  一种磷化物异质纳米片及其制备方法 

专利号:  ZL202111279212.4 

授权时间:  2022年12月2日 

发明人:  崔小强、许天翊、田伏钰、董易龙、刘弘太、徐珊 

31) 题目:  一种钼硒双元素掺杂的多孔片层状磷化镍材料的制备方法及应用 

专利号:  ZL202111365732.7 

授权时间:  2022年9月27日 

发明人:崔小强、   刘弘太、徐珊、许天翊 

30) 题目:  一种高性能稳定的钙钛矿/聚合物纳米球的制备方法及其应用 

专利号:  ZL201910339375.3 

授权时间:  2021年11月19日 

发明人:  崔小强、   王锋、郭子旺 

29) 题目:  一种磷脂胶束封装的CsPbBr3纳米晶复合材料及其应用 

专利号:  ZL201811504153.4 

授权时间:  2021年10月29日 

发明人:  崔小强、王锋 

28) 题目:  一种周期性发光复合材料的制备方法 

专利号:  ZL201910339376.8 

授权时间:  2021年8月31日 

发明人:  崔小强、  郭子旺、  王峰 

27) 题目:  氢化钯纳米片的制备方法及其应用 

专利号:  ZL201910740434.8 

授权时间:  2021年8月6日 

发明人:崔小强  、武建栋、张海燕 

26) 题目:  CsPbBr3 纳米晶 -PVDF 亚微球复合材料及其应用 

专利号:  ZL201811504147.9 

授权时间:  2021年7月2日 

发明人:崔小强  、王锋 

25) 题目:  一种氢掺杂  TiO2 相变纳米材料及其应用 

专利号:  ZL201910839855.6 

授权时间:  2021年6月25日 

发明人:崔小强  、贾广日、王颖、张雷、张海燕 

24) 题目:  锌离子诱导制备多枝状铂基纳米材料的方法 

专利号:  ZL201911131525.8 

授权时间:  2021年6月11日 

发明人:崔小强  、徐延超、魏淑婷 

23) 题目:  一种超薄的  RhPdH  纳米片材料及其制备方法与应用 

专利号:  ZL201811101361.X 

授权时间:  2021年6月4日 

发明人:崔小强  、武建栋、范锦昌、刘畅 

22) 题目:  一种类立方体的氧化亚铜薄膜的合成方法 

专利号: ZL201910521600.5 

授权时间:  2021年6月1日 

发明人:崔小强  、张丹彤 

21) 题目:  碳化钛纳米片作为上转换材料的应用 

专利号:  ZL201910093314.3 

授权时间:  2021年4月16日 

发明人:崔小强  、赛世然、王锋 

20) 题目:  一种八面体锥形氧化亚铜薄膜的合成方法 

专利号:  ZL201910521618.5 

授权时间:  2021年3月19日 

发明人:崔小强  、张丹彤 

19) 题目:  一种碳掺杂  TiO2 纳米多级结构材料及其应用 

专利号:  ZL201810770982.0 

授权时间:  2021年3月5日 

发明人:崔小强  、贾广日、张雷、张海燕 

18) Title of invention: PREPARATION METHODS AND APPLICATIONS OF ALLOY HYDRIDE MATERIALS

Patent number: 2021102042 

Patent time:  21 July 2021

Name of inventors: Cui, Xiaoqiang; Fan, Jinchang; Zhang, Lei and Zhang, Haiyan

17) 题目:  一种合金氢化物材料的制备方法及其应用 

专利号:  ZL201810769889.8 

授权时间:  2021年3月5日 

发明人:崔小强  、范锦昌、张雷、张海燕 

16) 题目:  一种铜镓铟三元多晶材料的合成方法及其应用 

专利号:  ZL201910589409.4 

授权时间:  2020年12月29日 

发明人:崔小强  、马星程 

15) 题目:  一种  Cu  (Ⅱ)修饰的 BiOCl 的制备方法及其应用 

专利号:  ZL201810139088.3 

授权时间:  2020年12月29日 

发明人:崔小强  、曾卉 

14) 题目  :一种紫外区半反半透膜及其制备方法 

专利号:  ZL201711122923.4 

授权时间:  2020年1月24日 

发明人:崔小强  、张丹彤 

13) 题目:  一种二维镍钴双金属 MOFs 纳米片及其在葡萄糖检测中应用 

专利号:  ZL201710432608.5 

授权时间:  2019年7月26日 

发明人:崔小强  、李威威、吕爽、张雷 

12) 题目:  一种探针载体和葡萄糖探针及其制备方法与应用 

专利号:  ZL201710391035.6 

授权时间:  2019年11月8日 

发明人:崔小强  、李威威、张雷 

11) 题目:  一种具有莫尔条纹的 BiOCl 光催化材料及其制备方法 

专利号:  ZL201610647255.6 

授权时间:  2019年2月15日 

发明人:崔小强  、刘璐璐 

10) Title of invention:  ELECTRO-CATALYSIS HYDROGEN PRODUCTION MATERIAL AND METHOD FOR PREPARING SAME

Patent number: 2021102039

Patent time: 7 July 2021 

Name of inventors: Cui, Xiaoqiang; Qi, Kun; Liu, Chang; Jin, Zhao and Liu, Lulu

9) 题目:  一种电催化制氢材料及其制备方法 

专利号:  ZL201610702660.3 

授权时间:  2018年8月21日 

发明人:崔小强  、祁琨、刘畅、金朝、刘璐璐 

8) 题目:  一种自支撑光阳极的制备方法 

专利号:  ZL201611047742.5 

授权时间:  2018年7月6日 

发明人:崔小强  、张丹彤、刘璐璐 

7) 题目:  一种 ZnO NRs/Au 膜复合三维微阵列生物芯片基底及其制备方法 

专利号:  ZL201510313994.7 

授权时间:  2018年2月13日 

发明人:崔小强  、刘畅、张雷、郑伟涛 

6) 题目:  金属相二硫化钼的制备方法 

专利号:  ZL201710050764.5 

授权时间:  2018年1月30日 

发明人:崔小强  、魏淑婷、祁琨、徐延超、张海燕、张雷 

5) 题目:  一种硫掺杂的氧化亚铜三维纳米多孔材料及其电化学析氢反应中的应用 

专利号:  ZL201710050434.6 

授权时间:  2017年11月10日 

发明人:崔小强  、张晓琳、张海燕、祁琨 

4) 题目:  太阳能燃料电池及其制备方法 

专利号:  ZL201310395046.3 

授权时间:  2016年9月14日 

发明人:崔小强  、郑伟涛、王其钰 

3) 题目:  多孔金属合金结构的制备方法 

专利号:  ZL201410418024.9 

授权时间:  2016年9月14日 

发明人:崔小强  、王其钰、管伟明、郑伟涛 

2) 题目:  基于氧化石墨烯的表面等离激元共振 DNA 传感器的制备方法 

专利号:  ZL201310335492.5 

授权时间:  2015年9月16日 

发明人:崔小强  、郑伟涛、薛天宇

1) 题目:  一种原位组装、电化学还原及表征氧化石墨烯的方法 

专利号:  ZL201210118821.6 

授权时间:  2013年11月27日 

发明人:崔小强  、郑伟涛、薛天宇