[1]     Jinzhan Su, Liejin Guo, Ningzhong Bao, and Craig A. Grimes,  Nanostructured WO₃/BiVO₄ Heterojunction Films for Efficient Photoelectrochemical Water Splitting. Nano Lett.2011,11(5): 1928-1933. （影响因子IF=12.712，被引次数cited:681次, ESI）

[2]     Jinzhan Su, Xinjian Feng, Jennifer D. Sloppy, Liejin Guo, and Craig A. Grimes, Vertically Aligned WO₃ Nanowire Arrays Grown Directly on Transparent Conducting Oxide Coated Glass: Synthesis and Photoelectrochemical Properties. Nano Lett.2011, 11(1): 203–208. （影响因子IF=12.712，被引次数cited:440次, ESI）

[3]     Jinzhan Su, Lionel Vayssieres*, “A Place in the Sun for Artificial Photosynthesis?”, ACS Energy Letters 2016, 1(1), 121-135（被引次数cited:76次）(IDS:EE5AS, WOS:000389617700022)

[4]     Jinzhan Su, Yankuan Wei, Lionel Vayssieres*, “On the Stability and Performance of Sulfide-, Nitride-, and Phosphide-Based Electrodes for Photocatalytic Solar Water Splitting”, The Journal of Physical Chemistry Letters, 2017, 8(20):5228-5238（影响因子IF=9.353被引次数cited:19次）(IDS:FK8YT, WOS:000413798300041)

[5]     Jinzhan Su*, Cong Liu, Dongyu Liu, Mingtao Li, Jinglan Zhou, "Enhanced Photoelectrochemical Performance of BiVO₄/Zn:BiVO₄ homojunction for Water Oxidation", ChemCatChem, 2016, 8(20), 3279-3286（影响因子IF=4.803被引次数cited:6次）(IDS: EA8WO, WOS: 000386920700016)

[6]     Jinzhan Su*, Jinglan Zhou, Lu Wang, Cong Liu, Yubin Chen*, “Synthesis and application of transition metal phosphides as electrocatalyst for water splitting”, Science Bulletin 2017, 62(9), 633-644（影响因子IF=4，被引次数cited:16次）(IDS:EX9FM, WOS:000403562500007)

[7]     Jinzhan Su*, Tao Zhang, Lu Wang, Jinwen Shi, Yubin Chen “Surface treatment effect on the photocatalytic hydrogen generation of CdS/ZnS core-shell microstructures”, Chinese Journal of Catalysis 2017, 38(3), 489-497（影响因子IF=2.813被引次数cited:10次）(IDS: ET2ST,WOS:000400125100010)

[8]     Jinzhan Su*, Tao Zhang, and Lu Wang, "Engineered WO₃ Nanorods for Conformal Growth of WO₃/BiVO₄ Core–Shell Heterojunction Towards Efficient Photoelectrochemical Water Oxidation", Journal of Materials Science: Materials in Electronics 2017, 28(5), 4481-4491. （影响因子IF=2.019被引次数cited:2次）(IDS:EM0KL,WOS:000395007100069)

[9]     Jinzhan Su*, Shangpu Liu, Jian Wang, Cong Liu, Yufeng Li, Dongyang Wu, "Solution-based synthesis of carbon–hematite composite thin films for high-performance supercapacitor applications", MRS Communications 2016, 6(4), 367-374（影响因子IF=3.01被引次数cited:2次）(IDS:EJ3QW, WOS:000393127700007)

[10]  Jinzhan Su*, Jian Wang, Cong Liu, Bo Feng, Yubin Chen, Liejin Guo, “On the role of metal atom doping in hematite for improved photoelectrochemical properties: a comparison study”, RSC Advances 2016, 6(104), 101745-101751（影响因子IF=3.108，被引次数cited:2次）(IDS:EB8DR, WOS:000387621700001)

[11]  Jinzhan Su*, Jinglan Zhou, Shichao Zong, Zhaohui Zhou*, Cong Liu and Bo Feng, "The effect of thermal annealing on the interfacial properties and photoelectrochemical performance of Ti doped Fe₂O₃ nanowire arrays", RSC Advances, 2016,6(102), 99851-99858（影响因子IF=3.108）(IDS:EA2QP, WOS:000386439800029)

[12]  Jinzhan Su*, Tao Zhang, Yufeng Li, Yubin Chen, Maochang Liu, “Photocatalytic Activities of Copper Doped Cadmium Sulfide Microspheres Prepared by a Facile Ultrasonic Spray-Pyrolysis Method”, Molecules 2016, 21(6), 735（影响因子IF=2.861，被引次数cited:6次）(IDS:DP8ON, WOS:000378757600061)

[13]  Jinzhan Su*, Liejin Guo, “High aspect ratio TiO₂ nanowires tailored in concentrated HCl hydrothermal condition for photoelectrochemical water splitting”, RSC Advances 2015, 5, 53012-53018（影响因子IF=3.108，被引次数cited:16次）(IDS:CK8BK, WOS:000356462400085)

[14]  Jinzhan Su, Liejin Guo, Sorachon Yoriya, and Craig A. Grimes, Aqueous Growth of Pyramidal-Shaped BiVO₄ Nanowire Arrays and Structural Characterization: Application to Photoelectrochemical Water Splitting. Crystal growth & design, 2010, 10(2): 856-861. （影响因子IF=4.055，被引次数cited:106次）

[15]  Wang, Lu, Jinzhan Su*, and Liejin Guo*. "Hierarchical Growth of a Novel Mn-Bi Coupled BiVO₄ Arrays for Enhanced Photoelectrochemical Water Splitting." Nano Research, 2019, 12(3), 575-580.

[16]  Cong Liu, Jinglan Zhou, Jinzhan Su*, Liejin Guo*, “Turning the unwanted surface bismuth enrichment to favourable BiVO4/BiOCl heterojunction for enhanced photoelectrochemical performance”, Applied Catalysis B: Environmental 2019, 241, 506-513

[17]  Zhiqiang Wang, Yankuan Wei, Xinyi Wang, Wenshuai Zhang, Jinzhan Su*, “Plasmonic Au Nanoparticles Modified Nanopyramid-Arrays BiVO4 with Enhanced Photoelectrochemical Activity”, Journal of The Electrochemical Society 2019, 166(5), H3138-H3145

[18]  Shangpu Liu, Jinglan Zhou, Youjun Lu, Jinzhan Su*, Pulsed laser/ electrodeposited CuBi₂O₄/BiVO₄ p-n heterojunction for solar water splitting, Solar Energy Materials and Solar Cells 2018, 180, 123-129. (IDS: GD8MD, WOS:000430765600015)

[19]  Jian Wang, Menglong Wang, Tao Zhang, Zhiqiang Wang, Penghui Guo, Jinzhan Su*, Liejin Guo*, “Facile Synthesis of Ultrafine Hematite Nanowire Arrays in Mixed Water–Ethanol–Acetic Acid Solution for Enhanced Charge Transport and Separation”, ACS Applied Materials & Interfaces 2018, 10(15), 12594-12602 (IDS: GD6TU, WOS:000430642100049)

[20]  Yankuan Wei, Zhiqiang Wang, Jinzhan Su*, Liejin Guo*, “Metal‐free flexible protonated g‐C3N4/carbon dots photoanode for photoelectrochemical water splitting application”, ChemElectroChem 2018, 5(19), 2734-2737 (WOS:000446066100005)

[21]  Xiaobing Li, Jinzhan Su*, Liejin Guo, Fujun Niu, “Photoelectrochemical Performance Dependence on Geometric Surface Area over Branched ZnO Nanowires”, ChemElectroChem 2018, 5(23), 3717-3722

[22]  Tao Zhang, Lu Wang, Jinzhan Su* and Liejin Guo, Branched Tungsten Oxide Nanorod Arrays Synthesized by Controlled Phase Transformation for Solar Water Oxidation, ChemCatChem, 2016, 8(12), 2119-2127. ( IDS:DQ9MI, WOS:000379533600016)

[23]  Tao Zhang, Jinzhan Su*, Liejin Guo*, “Morphology Engineering of WO₃/BiVO₄ Heterojunction for Efficient Photocatalytic Water Oxidation”, CrystEngComm 2016, 18, 8961 - 8970. ( IDS:EI4FI, WOS:000392448100018)

[24]  Tao Zhang, Jinzhan Su*, Liejin Guo*, “Hierarchical Architecture of WO₃ Nanosheets by Self-assembly of Nanorods for Photoelectrochemical Application”, CrystEngComm 2016, 18(5), 665-669 (IDS:DB9TH,WOS:000368859300002)

[25]  Cong Liu, Jinzhan Su*, Jinglan Zhou, and Liejin Guo,"A Multistep Ion Exchange Approach for Fabrication of Porous BiVO₄ Nanorod Arrays on Transparent Conductive Substrate", ACS Sustainable Chem. Eng., 2016, 4(9), 4492–4497 (IDS:DV1WP, WOS:000382713100003)

[26]  Cong Liu, Jinzhan Su*, Liejin Guo, “Comparison of Sandwich and Fingers-crossing Type WO₃/BiVO₄ Multilayer Heterojunctions for Photoelectrochemical Water Oxidation”, RSC Advances 2016, 6, 27557-27565. (IDS:DH2VD, WOS:000372644100034)

[27]  Cong Liu, Xiaobing Li, Jinzhan Su*, Liejin Guo, “Enhanced charge separation in copper incorporated BiVO₄ with gradient doping concentration profile for photoelectrochemical water splitting”, International Journal of Hydrogen Energy 2016, 41(30), 12842-12851. (IDS:DS2KY, WOS:000380599600013)

[28]  Jian Wang, Bo Feng, Jinzhan Su*, and Liejin Guo, "Enhanced Bulk and Interfacial Charge Transfer Dynamics for Efficient Photoelectrochemical Water Splitting: The Case of Hematite Nanorod Arrays",ACS Appl. Mater. Interfaces, 2016, 8(35), 23143-23150. (IDS:DV4NR, WOS:000382902800046)

[29]  Jian Wang, Ning Zhang, Jinzhan Su*, Liejin Guo*. α-Fe₂O₃ quantum dots: low-cost synthesis and photocatalytic oxygen evolution capabilities. RSC Advances, 2016, 6(47): 41060-41066.  ( IDS:DK9SC, WOS:000375270600057)

[30]  Jian Wang, Jinzhan Su*, Liejin Guo, “Controlled Aqueous Growth of Hematite Nanoplate Arrays Directly on Transparent Conductive Substrates and Their Photoelectrochemical Properties”, Chemistry-An Asian Journal 2016, 11(16), 2328-2334. (IDS:DW4IP, WOS:000383606700016)

[31]  Yankuan Wei, Jinzhan Su*, Xiaokang Wan, Liejin Guo, Lionel Vayssieres*, “Spontaneous photoelectric field-enhancement effect prompts the low cost hierarchical growth of highly ordered heteronanostructures for solar water splitting”, Nano Research 2016, 9(6), 1561-1569. ( IDS:DM8ZF, WOS:000376652300002)

[32]  Lijing Ma, Jinzhan Su*, Maochang Liu, Longzhou Zhang, Yufeng Li and Liejin Guo*,Enhanced photocatalytic activity over a novel CuWO₄/Cu_1−x Zn _x WO₄/ZnWO₄ hybrid material with sandwiched heterojunction, Journal of Materials Research 2016, 31(11), 1616-1621. ( IDS:DQ3VR, WOS:000379132200010)

[33]  Xiao Han, Yankuan Wei, Jinzhan Su*, Yan Zhao*, “Low-Cost Oriented Hierarchical Growth of BiVO4/rGO/NiFe Nanoarrays Photoanode for Photoelectrochemical Water Splitting ”, ACS Sustainable Chemistry & Engineering 2018, 6(11), 14695–14703

[34]  Ingrid Rodríguez-Gutiérrez*, Essossimna Djatoubai, Manuel Rodriguez-Perez, Jinzhan Su*, Geonel Rodriguez-Gattorno, Lionel Vayssieres, Gerko Oskam*, “Photoelectrochemical water oxidation at FTO/WO₃@CuWO₄ and FTO/WO₃@CuWO₄/BiVO₄ heterojunction systems: An IMPS analysis”, Electrochimica Acta 2019, 308, 317-327.

[35]  Liejin Guo*, Yubin Chen*, Jinzhan Su, Maochang Liu, Ya Liu, “Obstacles of solar-powered photocatalytic water splitting for hydrogen production: A perspective from energy flow and mass flow”, Energy 2019, 172, 1079-1086

[36]  Xiaokang Wan, Jinzhan Su, Liejin Guo*, “Enhanced photoelectrochemical water oxidation on BiVO₄ with mesoporous cobalt nitrides sheets as oxygen evolution cocatalysts ”, European Journal of Inorganic Chemistry 2018, 22, 2557-2563

[37]  Maochang Liu*, Yubin Chen, Jinzhan Su, Jinwen Shi, Xixi Wang, Liejin Guo*, “Photocatalytic Hydrogen Production Using Twinned Nanocrystals and an Unanchored NiSx Co-catalyst”, Nature Energy 2016, 1, 16151

[38]  Zhixiao Qin, Yubin Chen*, Zhenxiong Huang, Jinzhan Su, Liejin Guo*, “A bifunctional NiCoP-based core/shell cocatalyst to promote separate photocatalytic hydrogen and oxygen generation over graphitic carbon nitride”, Journal of Materials Chemistry A 2017, 5(33), 19025-19035.

[39]  Xu Guo, Yubin Chen*, Zhixiao Qin, Jinzhan Su, Liejin Guo*, “Facet-selective growth of CdS nanorods on ZnO microrods: intergrowth effect for improved photocatalytic performance”, Chemcatchem, 2018, 10(1), 153-158.

[40]  Yubin Chen, Zhixiao Qin, Tao Chen, Jinzhan Su, Xiaoyang Feng, Maochang Liu,Optimization of (Cu2Sn)xZn3(1-x)S3/CdS pn junction photoelectrodes for solar water reduction, RSC Adv., 2016 , 6(63), 58409-58416

[41]  Zhixiao Qin, Yubin Chen*, Zhenxiong Huang, Jinzhan Su, Zhidan Diao, Liejin Guo*, “Composition-Dependent Catalytic Activities of Noble-Metal-Free NiS/Ni₃S₄ for Hydrogen Evolution Reaction”, Journal of Physical Chemistry C 2016, 120 (27), 14581-14589

[42]  Xiaokang Wan, Fujun Niu, Jinzhan Su, Liejin Guo*, “Enhanced Photoelectrochemical Water Oxidation of Bismuth Vanadate via a Combined Strategy of W Doping and Surface RGO Modification”, Physical Chemistry Chemical Physics 2016, 18(46), 31803-31810

[43]  Jinwen Shi*, Penghui Guo*, Ya Liu, Jinzhan Su and Liejin Guo, PbO-sensitized ZnO nanorod arrays for enhanced visible-light-driven photoelectrochemical performance, Journal of Materials Research 2016, 31(11), 1622-1630.

[44]  Yubin Chen, Xiaoyang Feng, Maochang Liu, Jinzhan Su, Shaohua Shen,Towards efficient solar-to-hydrogen conversion: Fundamentals and recent progress in copper-based chalcogenide photocathodes, Nanophotonics, 2016, 5(4), 468-491.

[45]  Ya Liu, Liang Zhao, Jinzhan Su, Mingtao Li*, Liejin Guo, “Fabrication and Properties of Branched (NH₄)_xWO₃ Nanowire Array Film and Porous WO3 Nanorod Array Film”, ACS Applied Materials & Interfaces 2015, 7(6), 3532-3538.

[46]  Xu Liu, Ya Liu, Jinzhan Su, Mingtao Li*, Liejin Guo, “Facile preparation of BiVO₄ nanoparticle film by electrostatic spray pyrolysis for photoelectrochemical water splitting”, International Journal of Hydrogen Energy 2015, 40(38), 12964-12972.

[47]  Ying Yang*, Juan Han, Xiaohui Ning, Jinzhan Su, Jinwen Shi, Wei Cao and Wei Xu*, “Photoelectrochemical Stability Improvement of Cuprous Oxide (Cu₂O) Thin Films in Aqueous Solution”, International Journal of Energy Research 2016, 40(1), 112-123.

[48]  Yong Yan*, Dongdong Qin, Shi-Fang Duan, Chun-Ian Tao, Yuan-Yuan Geng, Xiao-qiang Yao, Xiong-Wu Kang, Jinzhan Su, Ingrid Rodríguez-Gutiérrez, Miao Kan, Yue Sun, Yixin Zhao, Melissa Romero, “Phosphorus‐doped isotype g‐C3N4/g‐C3N4: an efficient charge transfer system for photoelectrochemical water oxidation”, Chemcatchem 2019, 11(2), 729-736

[49]  Dong-Dong Qin, Jing-Jing Quan, Shi-Fang Duan, Jovan San Martin, Yixiong Lin, Xiaolin Zhu, Xiao-Qiang Yao, Jinzhan Su, Ingrid Rodriguez-Gutierrez, Chun-Lan Tao, Yong Yan, High-Performance Photoelectrochemical Water Oxidation with Phosphorus-Doped and Metal Phosphide Cocatalyst-Modified g-C3N4 Formation Through Gas Treatment, Chemsuschem, 2019. 12(4), 898-907.

[50]  Rui Xie, Jinzhan Su, Ya Liu, Liejin Guo*, Optical, structural and photoelectrochemical properties of CdS_1−xSe_x semiconductor films produced by chemical bath deposition; International Journal of Hydrogen Energy 2014, 39(7):3517-3527.

[51]  Jie Chen, Shaohua Shen, Penghui Guo, Meng Wang, Jinzhan Su, Daming Zhao and Liejin Guo, Plasmonic Ag@SiO2 core/shell structure modified g-C3N4 with enhanced visible light photocatalytic activity, Journal of Materials Research 2014, 29(1), 64-70.

[52]  Rui Xie, Jinzhan Su, Liejin Guo*, Ag₂S/CdS nanorod-array heterojunctions for efficient photoelectrochemical water splitting; International Journal of Nanotechnology 2013, 10(12): 1115-1128.

[53]  Rui Xie, Jinzhan Su, Mingtao Li, and Liejin Guo, Structural and Photoelectrochemical Properties of Cu-Doped CdS Thin Films Prepared by Ultrasonic Spray Pyrolysis, International Journal of Photoenergy, 2013 (2013), 620134 (WOS:000315883100001)

[54]  Mingtao Li, Jinzhan Su, Liejin Guo. Preparation and characterization of ZnIn₂S₄ thin films deposited by spray pyrolysis for hydrogen production. Int J Hydrogen Energy, 2008, 33(12): 2891-2896.