ORCID主页（文章详细信息）：https://orcid.org/0000-0002-9912-7655

 

专著章节：

(3)    Chen Y*, Guo X*, Ge Z, Liu Y, Liu M. Impactful Role of Earth-Abundant Cocatalysts in Photocatalytic Water Splitting. Solar Fuels, Wiley-Scrivener, 2023, p.375.

(2)    Chen Y*, Zheng W, Chen M, Guan X. Role of Hydrogen Spillover in Electrocatalytic Hydrogen Evolution from Water Splitting. In Transition Metal-Based Electrocatalysts: Applications in Green Hydrogen Production and Storage. American Chemical Society, 2023, 147-168.

(1)    Liu M, Chen G, Min B, Shi J, Chen Y, Liu Q. Photocatalytic CO2 Reduction. In Solar‐to‐Chemical Conversion: Photocatalytic and Photoelectrochemcial Processes, WILEY‐VCH GmbH, 2021, 243-267.

 

SCI论文：

(73)   Lv F, Wu J, Liu X, Zheng Z, Pan L, Zheng X, Guo L, Chen Y*. Decoupled electrolysis for hydrogen production and hydrazine oxidation via high-capacity and stable pre-protonated vanadium hexacyanoferrate. Nature Communications, 2024, 15: 1339.

(72)   Li R, Wang F, Lv F, Wang P, Guo X, Feng J, Li D*, Chen Y*. Simultaneous hydrogen production and conversion of plastic wastes into valued chemicals over a Z-scheme photocatalyst. International Journal of Hydrogen Energy, 2024, 51: 406-414.

(71)    Wu J, Lv F, Pan L, Chen Y*. Decoupled Water Electrolysis via VO2+/VO2+ Redox Mediator for 35 MPa High-Pressure Hydrogen Production. ACS Sustainable Chemistry & Engineering, 2023, 11, 49, 17199-17205.

(70)    Zhao R, Xu S, Liu D, Wei L, Yang S, Yan X, Chen Y*, Zhou Z*, Su J, Guo L, Burda C*. Modulating the electronic structure of NiFe hydroxide by Zr doping enables industrial-grade current densities for water oxidation. Applied Catalysis B: Environmental, 2023, 338: 123027.

(69)    Ge Z, Wang M, Li R, Jin X, Chen Y*. Nanosized MoP as a cocatalyst over red phosphorus for photocatalytic water splitting. Materials Letters, 2023, 340: 134185.

(68)    Guo X, Liu X, Wang M, Yan J*, Chen Y*, and Liu S*. Unveiling the Origin of Co₃O₄ Quantum Dots for Photocatalytic Overall Water Splitting. Small, 2023, 19(19): 2206695.

(67)    Wu J, Xu X, Guo X, Xie W, Pan L, and Chen Y*. Polypyrrole modification on BiVO₄ for photothermal-assisted photoelectrochemical water oxidation. The Journal of Chemical Physics, 2023, 158: 091102.

(66)    Zheng X, Lv F, Liu X, Zheng Z, and Chen Y*. Decoupled alkaline water electrolysis by K_0.5MnO₂-Ti mediator via K-ion insertion/extraction. Chemical Communications, 2023, 59: 2138-2141.

(65)    Pan L, Wu J, Xu X, Lv F, Chen Y*, and Guo L. Photoelectrochemical performance of bismuth vanadate photoanode for water splitting under concentrated light irradiation. International Journal of Hydrogen Energy, 2023, 48(36): 13479-13488.

(64)    Wang M, Xu S, Ge Z, Li Y, Zhou Z, and Chen Y*. All-Solid-State C₃N₄/Ni_xP/Red Phosphorus Z-Scheme Heterostructure for Wide-Spectrum Photocatalytic Pure Water Splitting. Industrial & Engineering Chemistry Research, 2023, 62(2): 961-970.

(63)    Heidari S, Pan L, Wu J, Liu L, Zhang W, Li R, and Chen Y*. Effect of sintering optimization on photoelectrochemical performance of Cu2ZnSnS4 nanocrystal films. Journal of Chemical Technology & Biotechnology. 2023, 98(4): 958-966.

(62)    Lv F, Qin Z, Wu J, Pan L, Liu L, Chen Y*, and Zhao Y*. Decoupled Water Electrolysis Driven by 1 cm² Single Perovskite Solar Cell Yielding a Solar‐to‐Hydrogen Efficiency of 14.4%. ChemSusChem, 2023, 16(1): e202201689. (Front Cover & Invited Cover Profile)

(61)    Heidari S, Wu J, Liu L, Pan L, Zhang W, and Chen Y*. Synthesis of copper zinc tin sulfide nanocrystal films by solution-based methods and study of their photoelectrochemical properties. Materials Letters, 2022, 329: 133237.

(60)    Zheng W, Liu Y, Bai S, Qiu H, Wu J, Chen Y*. Simulation Study Reveals the Role of Hydrogen Spillover in pH- and Potential-Dependent Hydrogen Evolution over the NiCu Bimetal Catalyst. The Journal of Physical Chemistry C, 2022, 126(31): 13182–13190.

(59)    Wang M, Xu S, Zhou Z, Dong CL, Guo X, Chen JL, Huang YC, Shen S, Chen Y*, Guo L, Burda C*. Atomically Dispersed Janus Nickel Sites on Red Phosphorus for Photocatalytic Overall Water Splitting. Angewandte Chemie International Edition, 2022, 61: e202204711.

(58)    Cai C, Wang Z, Shi J*, Zhang Y, Mao L, Chen F, Wang T, Chen Y*. Facile One-pot Pyrolysis Preparation of SnO₂/g-C₃N₄ Composites for Improved Photocatalytic H2 Production. Journal of Chemical Technology and Biotechnology, 2022, 97(10): 2921-2931.

(57)    Zhang Y, Liu D, Shi J*, Chen P, Zong S, Cheng C, Chen K, Chen Y, Ma L*. (Oxy)nitride heterojunction-strengthened separation of photogenerated carriers in g-C₃N₄ towards enhanced photocatalytic H₂ evolution. Applied Catalysis A: General, 2022, 643: 118746.

(56)    Mao L, Lu B, Shi J*, Zhang Y, Kang X, Chen Y, Jin H*, Guo L. Rapid high-temperature hydrothermal post treatment on graphitic carbon nitride for enhanced photocatalytic H₂ evolution. Catalysis Today, 2022, 409: 94-102.

(55)    Wu J, Zheng W, Chen Y*. Factors affecting the cathode/electrolyte interfacial pH change during water reduction: A simulation study. International Journal of Hydrogen Energy, 2022, 47: 18597-18605.

(54)    Wu J, Zheng W, Chen Y*. Definition of photocatalysis: Current understanding and perspectives. Current Opinion in Green and Sustainable Chemistry, 2022, 33: 100580.

(53)     Liu Y*, Lei D, Guo X, Ma T, Wang F, Chen Y*. Scale Effect on Producing Gaseous and Liquid Chemical Fuels via CO₂ Reduction. Energies 2022, 15: 335.

(52)    Liu Y*, Bai S, Wang F, Chen Y. Photoelectrochemical technology for solar fuel generation, from single photoelectrodes to unassisted cells: a review. Environmental Chemistry Letters, 2022, 20: 1169-1192.

(51)     Chen Y, Lv F, Xia H, Xu X, Su J, Shen S*. Modification of Ti-doped hematite nanowires with a NiO_x buffer layer for improved photoelectrochemical performance. Applied Physics Letters, 2021, 119: 083901.

(50)      Chen Y, Zheng W, Murcia-Lopez S, Lv F, Morante JR, Vayssieres L, Burda C*. Light management in photoelectrochemical water splitting – from materials to device engineering. Journal of Materials Chemistry C, 2021, 9: 3726.

(49)      Chen Y^#, Liu Y^#, Wang F, Guan X, Guo L*. Toward practical photoelectrochemical water splitting and CO₂ reduction using earth-abundant materials. Journal of Energy Chemistry, 2021, 61: 469.

(48)      Chen Y*, Xia H, Feng X, Liu Y, Zheng W, Ma L, Li R. Synergy of porous structure and cation doping in Ta₃N₅ photoanode towards improved photoelectrochemical water oxidation. Journal of Energy Chemistry, 2021, 52: 343-350.

(47)      Chen Y*, Xia H, Zhang W, Zheng W, Feng X, Jiang J*. Template synthesis of porous hierarchical Cu₂ZnSnS₄ nanostructures for photoelectrochemical water splitting. International Journal of Hydrogen Energy, 2021, 46: 2862-2870.

(46)      Qin Z, Guan X, Guo X, Guo P, Wang M, Huang Z, Chen Y*. Integrated Z-Scheme Nanosystem Based on Metal Sulfide Nanorods for Efficient Photocatalytic Pure Water Splitting. ChemSusChem, 2020, 13: 6528-6533.

(45)      Guo X, Li Q, Liu Y, Jin T, Chen Y*, Guo L*, Lian T*. Enhanced Light-Driven Charge Separation and H₂ Generation Efficiency in WSe₂ Nanosheet-Semiconductor Nanocrystal Heterostructures. ACS Applied Materials & Interfaces 2020, 12(40): 44769-44776.

(44)      Wang M^#, Qin Z^#, Diao Z, Li R, Zhong J, Ma D, Chen Y*. Red Phosphorus/Carbon Nitride van der Waals Heterostructure for Photocatalytic Pure Water Splitting under Wide-Spectrum Light Irradiation. ACS Sustainable Chemistry & Engineering, 2020, 8(35): 13459–13466.

(43)      Chen Y, Feng X, Liu Y, Guan X, Burda C*, Guo L*. Metal Oxide-Based Tandem Cells for Self-Biased Photoelectrochemical Water Splitting. ACS Energy Letters, 2020, 5: 844-866.

(42)      Xu S, Jiang J*, Ren W, Wang H, Zhang R, Xie Y, Chen Y. Construction of ZnO/CdS three-dimensional hierarchical photoelectrode for improved photoelectrochemical performance. Renewable Energy, 2020, 153: 241-248.

(41)      Guo X, Guo P, Wang C, Chen Y*, Guo L. Few-layer WSe₂ nanosheets as an efficient cocatalyst for improved photocatalytic hydrogen evolution over Zn_0.1Cd_0.9S nanorods. Chemical Engineering Journal, 2020, 383: 123183.

(40)      Qin Z, Huang Z, Wang M, Liu D, Chen Y*, Guo L. Synergistic effect of quantum confinement and site-selective doping in polymeric carbon nitride towards overall water splitting. Applied Catalysis B: Environmental, 2020, 261: 118211.

(39)      Li X, Zhang T, Chen Y, Fu Y, Su J*, Guo L*. Hybrid nanostructured Copper(II) phthalocyanine/TiO₂ films with efficient photoelectrochemical performance. Chemical Engineering Journal, 2020, 382: 122783.

(38)      Feng X, Hou L, Huang Z, Li R, Shi J, Chen Y*. A self-doping strategy to improve the photoelectrochemical performance of Cu₂ZnSnS₄ nanocrystal films for water splitting. Chemical Communications, 2019, 55(82): 12396-12399.

(37)      Guo L*, Chen Y*, Su J, Liu M, Liu Y. Obstacles of solar-powered photocatalytic water splitting for hydrogen production: a perspective from energy flow and mass flow. Energy, 2019, 172: 1079-1086.

(36)      Li Z, Chen Y, Burda C. Photoexcited Dynamics in Metal Halide Perovskites: From Relaxation Mechanisms to Applications. The Journal of Physical Chemistry C, 2019, 123(6): 3255-3269.

(35)      Chen Y*, Feng X, Guo X, Zheng W. Toward a fundamental understanding of factors affecting the function of cocatalysts in photocatalytic water splitting. Current Opinion in Green and Sustainable Chemistry, 2019, 17(30): 21-28.

(34)      Feng X, Li R, Wang M, Chen Y*. Switchable synthesis of p-and n-type Cu–In–S grooved pyramid-like microcrystals for unassisted photoelectrochemical water splitting. Journal of Materials Chemistry A, 2018, 6(24): 11180-11188. (Front Cover)

(33)      Jiang J*, Wang Y, Ren W, Xing Y, Chen Y. Surface modification of ZnO microrod arrays films by ion-exchange approach and their photoelectrochemical performances. International Journal of Hydrogen Energy, 2018, 43(30): 13931-13938.

(32)      Chen Y*, Guo X, Xie C, Qin Z, Feng X. Size- and composition-dependent photocatalytic hydrogen production over colloidal Cd_1-xZn_xSe nanocrystals. International Journal of Hydrogen Energy, 2018, 43(30): 13911-13920.

(31)      Qin Z, Wang M, Li R, Chen Y*. Novel Cu₃P/g-C₃N₄ p-n heterojunction photocatalysts for solar hydrogen generation. Science China Materials, 2018, 61(6): 861-868.

(30)      Guo X, Chen Y*, Qin Z, Su J, Guo L*. Facet-selective growth of cadmium sulfide nanorods on zinc oxide microrods: intergrowth effect for improved photocatalytic performance. ChemCatChem, 2018, 10(1): 153-158.

(29)      Jiang J, Ren W*, Chen Y, Du G, Guo L. Insight into carrier transportation and hydrogen production activity of two novel morphological CdS films. International Journal of Hydrogen Energy, 2017, 42(48): 28710-28717.

(28)      Qin Z, Chen Y*, Huang Z, Su J, Guo L*. 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(36): 19025-19035.

(27)      Qin Z, Xue F, Chen Y*, Shen S, Guo L. Spatial charge separation of one-dimensional Ni₂P-Cd_0.9Zn_0.1S/g-C₃N₄ heterostructure for high-quantum-yield photocatalytic hydrogen production. Applied Catalysis B: Environmental, 2017, 217: 551-559.

(26)      Feng X, Chen Y*, Wang M, Guo L. Hydrothermal synthesis of pyramid-like In₂S₃ film for efficient photoelectrochemical hydrogen generation. International Journal of Hydrogen Energy, 2017, 42(22): 15085-15095.

(25)      Su J*, Zhang T, Wang L, Shi J, Chen Y. Surface treatment effect on the photocatalytic hydrogen generation of CdS/ZnS core-shell microstructures. Chinese Journal of Catalysis, 2017, 38(3): 489-497.

(24)      Chen Y*, Chuang CH, Qin Z, Shen S, Doane T, Burda C*. Electron-transfer dependent photocatalytic hydrogen generation over cross-linked CdSe/TiO₂ type-II heterostructure. Nanotechnology, 2017, 28(8): 084002.

(23)      Su J*, Zhou J, Wang L, Liu C, Chen Y*. Synthesis and application of transition metal phosphides as electrocatalyst for water splitting. Science Bulletin, 2017, 62(9): 633-644.

(22)      Liu M*, Chen Y, Su J, Shi J, Wang X, Guo L*. Photocatalytic hydrogen production using twinned nanocrystals and an unanchored NiS_x co-catalyst. Nature Energy, 2016, 1(11): 16151.

(21)      Chen Y*, Qin Z. General applicability of nanocrystalline Ni₂P as a noble-metal-free cocatalyst to boost photocatalytic hydrogen generation. Catalysis Science & Technology, 2016, 6(23): 8212-8221. (Inside Cover)

(20)      Wang X, Liu M*, Chen Y, Fu W, Wang B, Guo L*. Symmetry breaking in semiconductor nanocrystals via kinetic-controlled surface diffusion: a strategy for manipulating the junction structure. Nanoscale, 2016, 8(35): 15970-15977.

(19)      Feng X, Chen Y*, Qin Z, Wang M, Guo L*. Facile fabrication of sandwich structured WO₃ nanoplate arrays for efficient photoelectrochemical water splitting. ACS Applied Materials & Interfaces, 2016, 8(28): 18089-18096.

(18)      Qin Z, Chen Y*, Huang Z, Su J, Diao Z, Guo L*. Composition-dependent catalytic activities of noble-metal-free NiS/Ni3S4 for hydrogen evolution reaction. The Journal of Physical Chemistry C, 2016, 120(27): 14581-14589.

(17)      Su J*, Zhang T, Li Y, Chen Y, Liu M. Photocatalytic activities of copper doped cadmium sulfide microspheres prepared by a facile ultrasonic spray-pyrolysis method. Molecules, 2016, 21(6): 735.

(16)      Guo X, Chen Y*, Qin Z, Wang M, Guo L*. One-step hydrothermal synthesis of Zn_xCd_1−xS/ZnO heterostructures for efficient photocatalytic hydrogen production. International Journal of Hydrogen Energy, 2016, 41(34): 15208-15217.

(15)      Chen Y, Feng X, Liu M, Su J, Shen S*. Towards efficient solar-to-hydrogen conversion: Fundamentals and recent progress in copper-based chalcogenide photocathodes. Nanophotonics, 2016, 5(4): 524-547.

(14)      Liu M*, Wang B, Zheng Y, Xue F, Chen Y, Guo L*. Transformation of zincblende nanoparticles into wurtzite microrods by a dissolution–regrowth process: an intergrowth homojunction with enhanced photocatalytic activity. Catalysis Science & Technology, 2016, 6(10): 3371-3377.

(13)      Su J*, Wang J, Liu C, Feng B, Chen Y, Guo L. On the role of metal atom doping in hematite for improved photoelectrochemical properties: a comparison study. RSC Advances, 2016, 6(104): 101745-101751.

(12)      Chen Y*, Qin Z, Chen T, Su J, Feng X, Liu M. Optimization of (Cu₂Sn)_xZn_3(1−x)S₃/CdS pn junction photoelectrodes for solar water reduction. RSC Advances, 2016, 6(63): 58409-58416.

(11)      Qin Z, Chen Y*, Wang X, Guo X, Guo L*. Intergrowth of cocatalysts with host photocatalysts for improved solar-to-hydrogen conversion. ACS Applied Materials & Interfaces, 2016, 8(2): 1264-1272.

(10)      Chen Y*, Qin Z, Guo X, Wang X, Guo L. One-step hydrothermal synthesis of (CuIn)_0.2Zn_1.6S₂ hollow sub-microspheres for efficient visible-light-driven photocatalytic hydrogen generation. International Journal of Hydrogen Energy, 2016, 41(3): 1524-1534.

(9)        Chen Y*, Qin Z, Wang X, Guo X, Guo L*. Noble-metal-free Cu₂S-modified photocatalysts for enhanced photocatalytic hydrogen production by forming nanoscale p–n junction structure. RSC Advances, 2015, 5(23): 18159-18166.

(8)        Cai L, Ren F, Wang M, Cai G, Chen Y, Liu Y, Shen S*, Guo L. V ions implanted ZnO nanorod arrays for photoelectrochemical water splitting under visible light. International Journal of Hydrogen Energy, 2015, 40(3): 1394-1401.

(7)        Guo L*, Jing D*, Liu M, Chen Y, Shen S, Shi J, Zhang K. Functionalized nanostructures for enhanced photocatalytic performance under solar light. Beilstein Journal of Nanotechnology, 2014, 5: 994.

(6)        Chen Y, Chuang CH, Lin KC, Shen S, McCleese C, Guo L*, Burda C*. Synthesis and photoelectrochemical properties of (Cu₂Sn)_xZn_3(1–x)S₃ nanocrystal films. The Journal of Physical Chemistry C, 2014, 118(22): 11954-11963.

(5)        Chen Y, Guo L*. Highly efficient visible-light-driven photocatalytic hydrogen production from water using Cd_0.5Zn_0.5S/TNTs (titanate nanotubes) nanocomposites without noble metals. Journal of Materials Chemistry, 2012, 22(15): 7507-7514.

(4)        Shi J, Shen S*, Chen Y, Guo L, Mao S. Visible light-driven photocatalysis of doped SrTiO₃ tubular structure. Optics Express, 2012, 20(102): A351-A359.

(3)        Chen Y, Wang L, Lu G M, Yao X*, Guo L*. Nanoparticles enwrapped with nanotubes: a unique architecture of CdS/titanate nanotubes for efficient photocatalytic hydrogen production from water. Journal of Materials Chemistry, 2011, 21(13): 5134-5141.

(2)        Yang H, Chen Y, Guo L*. Homogenous photocatalytic decomposition of acetic acid using UV-Fe²⁺/Fe³⁺ system in the absence of oxygen. Catalysis Communications, 2010, 11(14): 1099-1103.

(1)        Chen Y, Yang H, Liu X, Guo L*. Effects of cocatalysts on photocatalytic properties of La doped Cd₂TaGaO₆ photocatalysts for hydrogen evolution from ethanol aqueous solution. International Journal of Hydrogen Energy, 2010, 35(13): 7029-7035.

 

其它论文：

(4)   王瑞雪，吴家哲，郑文钰，陈玉彬*，水分解制氢中的电解液调控机制，精细化工，2022，39(9)：1964-1975.

(3)   郑学文，赵蕊，吴家哲，王朦胧，陈玉彬*，电解海水催化剂的设计与改性，化工进展，2022，41(11)：5800-5810.

(2)    Jiazhe Wu, Chen Y*. Revisiting the Concept of Photocatalysis: An Analysis from the Chemical Potentials. ChemRxiv, 2021. DOI: 10.26434/chemrxiv.14398631.v1

(1)      Chen Y*, Qin Z. Heterostructured photocatalysts for improved solar hydrogen generation. SPIE Newsroom. 2016. DOI: 10.1117/2.1201605.006478.