基本简况

靳治良，男，汉族，研究员，正高职高级工程师，博士生导师，甘肃静宁人。国家民委领军人才，国家民委 清洁能源与绿色化工创新团队 带头人，国家民委 化工技术基础重点实验室 主任，宁夏太阳能化学转化技术重点实验室 主任，《Acta Physico-Chimica Sinica （物理化学学报）》编委。宁夏材料学会 副理事长，中国能源学会新能源专家委员会 专家委员，中国化工教育协会 理事。主持并完成科研项目 26 项，发表研究论文 240 余篇，其中一作/通讯作者发表 SCI 收录 206 篇，ESI 高被引 32 篇，热点文章 3 篇，RSC 2019 高被引中国****，参编学术专著 2 部，副主编教材 2 部。


★ 1987 年 7 月 毕业于西北大学 化工系；

★ 1987 年 8 月 ～ 2000 年 7 月 原兰州煤气厂工作，历任技术员、车间副主任、技术科副科长、科长、安全环保科科长、总调度长等职；
★ 2000 年 8 月 ～ 2003 年 7 月 中国科学院 盐湖研究所 硕士；
★ 2003 年 8 月 ～ 2006 年 6 月 中国科学院 兰州化学物理研究所 博士；
★ 2006 年 7 月 ～ 2014 年 8 月 中国科学院 兰州化学物理研究所 羰基合成与选择氧化国家重点实验室工作，主要从事清洁能源、环境催化及文化遗产保护相关领域的研究工作；
★ 2014 年 9 月 ～ 至今 在北方民族大学 化学与化学工程学院工作，（2016 年 1 月 ～ 2019 年 6 月 任院长），主要承担本科生及研究生《煤化工工艺学》、《化工设计》、《化工制图》、《化工专业导论》、《现代化工进展》、《精细化工》等课程的教学工作及相关科研工作；
★ 期间曾分别于1988 年 5 ～ 10月；1990 年 1 ～ 6月；1995 年 10 ～ 12月；1996 年 5 ～ 6月；2009 年 12 ～ 2010 年 3 月在捷克、日本做合作项目。
★ 2005 年 任高级工程师，2008 年 任副研究员，2012 年 任研究员，2015 年 任正高职高级工程师。







主要研究方向

1、清洁能源（光催化分解水制氢）；
2、环境化工（环境污染物消除及资源化利用）；
3、文化遗产保护（硅酸盐质文物盐害机理及防治）。






近年来主持的课题

曾主持完成了国家重点基础研究发展计划（973 计划）子课题、国家 “ 十一五 ”、“ 十二五 ” 科技支撑计划项目子课题、863 计划项目、国家自然科学基金项目、中科院 “ 西部之光 ” 项目、中科院知识创新重要方向性项目、甘肃省中青年基金项目、青海省重点技术创新项目、宁夏自然科学基金重点项目、省部共建煤炭高效利用与绿色化工国家重点实验室重点开放课题、广东省科技孵化基金院市合作项目及企业合作项目等共计 26 项，参与课题 6 项。

近年来主持结题及在研课题有：


● 项目名称：g-C₃N₄量子点修饰MOFs（以Uio-66为例）光催化材料的设计合成及可见光诱导分解水制氢性能研究（国家自然科学基金 [**]）；项目负责人；起止时间：2019 年 1 月 ～ 2022 年 12 月；在研。
● 项目名称：石墨炔及石墨炔基复合光催化材料的设计合成并原位光催化分解水制氢耦合集成新策略（国家自然科学基金项目 [**]）；项目负责人；起止时间：2021 年 1 月 ～ 2024 年 12 月；在研。

● 项目名称：硅酸盐质文化遗产盐的迁移和毁损机理研究 — 以西夏王陵为例（国家自然科学基金项目 [**]）；项目负责人；起止时间：2017 年 1 月 ～ 2020 年 12 月；在研。
● 项目名称：硼氧配阴离子增强染料敏化半导体光催化剂稳定性及可见光诱导还原水制氢性能研究（国家自然科学基金项目 [**]）；项目负责人；起止时间：2012 年 1 月 ～ 2015 年 12 月；结题。

● 项目名称：基于MOFs材料的全固态Z-型复合光催化剂的界面构筑及其电子传输机制研究（宁夏自然科学基金重点项目 [2020AAC02026]）；项目负责人；起止时间：2019年 6 月～2021年 5 月；在研。
● 项目名称：太阳能化学转化制氢高效催化剂的研究开发（省部共建煤炭高效利用与绿色化工国家重点实验室重大开放课题 [2019-KF-36]）；项目负责人；起止时间：2019 年 8 月～2021 年 7 月；在研。
● 项目名称：难氧化高毒性有机污染物催化消除研究（中国科学院 “ 西部之光 ” 项目，科发人教字 [2006] 378号）；项目负责人；起止时间：2007 年 1 月 ～ 2009 年 12 月。结题获择优支持（科发人教字 [2011] 1 号），结题。
● 项目名称：有机-无机复合纳米光催化剂及新反应体系研究，（中国科学院知识创新工程方向性项目 [KGCX2-YW-390-3]）；项目负责人；起止时间：2009 年 1 月 ～ 2011 年 12 月；结题。
● 项目名称：环境污染物治理的催化技术与应用研究（甘肃省自然科学（中青年）基金 [0711RJYA017]）；项目负责人；起止时间：2007 年 1月 ～ 2009 年 12 月；结题。
● 项目名称：染料敏化半导体可见光诱导还原水制氢研究（宁夏自然科学基金项目 [NZ12203]）；项目负责人；起止时间：2012 年 6 月 ～ 2014 年 5 月；结题。
● 项目名称：电解铝含氟烟气净化消除关键技术研究（青海省重点技术创新项目（青经投 [2012] 203 号））；项目合作单位负责人；起止时间：2012 年 10 月 ～ 2013 年 9 月；结题。
● 项目名称：环境催化技术基础研究（科技部国家重点实验室方向性项目 [080117BKJZ]）；项目负责人；起止时间：2008 年 1 月 ～ 2010 年 12 月；结题。
● 项目名称：具有空气净化功能的光催化照明灯（广东省佛山市科技孵化基金院市合作项目（佛科 [2010] 154号））；项目负责人；起止时间：2010 年 6 月 ～ 2012 年 6 月；结题。





科研成果

发表研究论文 240 余篇，其中一作/通讯作者发表 SCI 收录 206 篇，ESI 高被引 32 篇，热点文章 3 篇。RSC 2019 高被引中国****。参编学术专著 2 部，副主编教材 2 部，授权发明专利 7 件。


1、代表性论文（ 一作 及 通讯作者 ）



2021年

176、Lijun Zhang, Zhiliang Jin* et al., Zeolitic imidazolate framework-67 derived P-doped hollow porous Co₃O₄ as photo-catalyst for hydrogen production from water, ACS Appl. Mater. Interf., 2021, （Doi：org/10.1021/acsami.1c14987）（ IF = 9.229 ）
175、Teng Yan, Zhiliang Jin* et al., Graphdiyne based ternary GD-CuI-NiTiO₃ S-scheme heterjunction photocatalyst for hydrogen evolution, ACS Appl. Mater. Interf., 2021, 13, 24896 - 24906. （ IF = 9.229 ） ESI 高被引.
174、Lijun Zhang, Zhiliang Jin* et al., MoP@MoO₃ S-scheme heterojunction in-situ construction with phosphating MoO₃ for high-efficient photocatalytic hydrogen production, Nanoscale, 2021, ( Doi: 10.1039/D1NR02798K )（ IF = 7.790 ）
173、Guorong Wang, Zhiliang Jin*, Oxygen-vacancy-rich cobalt-aluminium hydrotalcite structure served as high-performance supercapacitor cathode, J. Mater. Chem. C, 2021, 9, 620 – 632. （ IF = 7.059 ） ESI 高被引.
172、Lijun Zhang, Zhiliang Jin* et al., Theoretical guiding the construction of a novel Cu₂O@Cu₉₇P₃@Cu₃P heterojunction with a 3D hierarchical structure for efficient photocatalytic hydrogen evolution, Nanoscale, 2021, 13, 1340 – 1353. （ IF = 7.790 ）
171、Xian Yan, Zhiliang Jin* et al., Interface engineering: NiAl-LDH in-situ derived NiP₂ quantum dots and Cu₃P nanoparticles ingeniously constructed p-n heterojunction for photocatalytic hydrogen evolution, Chem. Eng. J., 2021, 420, 127682. （ IF = 13.273 ） ESI 高被引.
170、Yanan Liu, Zhiliang Jin* et al., Engineering a NiAl-LDH/CoSx S-scheme heterojunction for enhanced photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2021, （ Doi: 10.1016/j.jcis.2021.11.065）（IF = 8.128）
169、Dingzhou Xiang, Zhiliang Jin* et al., Cu/CdS/MnOx nanostructure based photocatalyst for photocatalytic hydrogen evolution, ACS Applied Nano Materials, 2021, （IF = 5.097）
168、Teng Yan, Zhiliang Jin* et al., MoC quantum dots embedded in ultra-thin carbon film coupled with 3D porous g-C3N4 for enhanced visible-light-driven hydrogen evolution, Appl. Catal. A: General, 2021, （IF = 5.706）
167、Mengxue Yang, Zhiliang Jin* et al., NiCo LDH in-situ derived NiCoP 3D nanoflower coupling with Cu₃P p-n heterojunction for efficient hydrogen evolution, Nanoscale, 2021, 13, 13858 - 13872. （ IF = 7.790 ）
166、Yupeng Zhang, Zhiliang Jin* et al., Tribological properties of MoS₂ coating for ultra-long wear-life and low coefficient of friction combined with additive g-C₃N₄ in air, Friction, 2021, 9(4), 789 – 801. （ IF = 5.290 ）
165、Xudong Jiang, Zhiliang Jin* et al., Hollow tubular Co₉S₈ grown on In₂O₃ to form S-scheme heterojunction for efficient and stable hydrogen evolution, Inter. J. Hydrogen Energ., 2021, ( Doi: org/10.1016/j.ijhydene. 2021.10.151 ). ( IF = 5.816 )

164、Shanchi Liu, Zhiliang Jin* et al., Rationally designed Mn_0.2Cd_0.8S@CoAl LDH S-scheme heterojunction for efficient photocatalytic hydrogen production, Acta Phys. – Chim. Sin., 2021, ( IF = 2.263 )
163、Dujuan Li, Zhiliang Jin* et al., Effect of phosphating on NiAl-LDH layered double hydroxide form S-scheme heterojunction for photocatalytic hydrogen evolution, Mole. Catal., 2021, 516, 111990. ( IF = 5.062 )
162、Junke Li, Zhiliang Jin* et al., 2D/3D ZIF-9/Mo₁₅S₁₉ S-scheme heterojunction for productive photocatalytic hydrogen evolution, Energy Technology, 2021, ( Doi: 10.1002/ente. ). ( IF = 3.631 )
161、Guorong Wang, Zhiliang Jin* et al., EDA-assisted synthesis of multifunctional snowflake-Cu₂S/CdZnS S-scheme heterjunction for improved the photocatalytic hydrogen evolution, Journal of Materials Science and Technology,2021, ( IF = 8.067 )
160、Xiangyi Wang, Zhiliang Jin* et al., Snowflake-like Cu₂S coated with NiAl-LDH form a p-n heterojunction for efficient photocatalytic hydrogen evolution, ACS Applied Energy Materials, 2021, ( Doi: 10.1021/acsaem.1c01767 ). ( IF = 6.026 )
159、Teng Li, Zhiliang Jin* et al., MoC quantum dots modified CeO₂ dispersed in ultra-thin carbon films for efficient photocatalytic hydrogen evolution, Mole. Catal., 2021, 513, 111829.( IF = 5.062 )

158、Kaicheng Yang, Zhiliang Jin* et al., 3D mesoporous ultra-thin g-C₃N₄ coupled with monoclinic β-AgVO₃ as p-n heterojunction for photocatalytic hydrogen evolution, Mole. Catal., 2021, 513, 111828. ( IF = 5.062 )
157、Xuqiang Hao, Zhiliang Jin* et al., Zn-vacancy engineered S-scheme ZnCdS/ZnS photocatalyst for highly efficient photocatalytic hydrogen evolution, ChemCatChem, 2021, ( Doi: 10.1002/cctc. ). ( IF = 5.686 )
156、Yongkang Quan, Zhiliang Jin* et al., CdS Reinforced with CoS_X/NiCo-LDH core-shell co-catalyst demonstrate high photocatalytic hydrogen evolution and durability in anhydrous ethanol, Chem. - A European Journal, 2021, ( Doi:10.1002/chem. ). （ IF = 4.857 ）
155、Peng Su, Zhiliang Jin* et al., Metal organic framework-derived Co₃O₄/NiCo₂O₄ hollow double-shell polyhedrons for effective photocatalytic hydrogen generation, Appl. Surf. Sci., 2022, 571, 151288. ( IF = 6.706 )
154、Shanchi Liu, Zhiliang Jin* et al., Hexagonal CdS single crystals coupled with layered CoAl LDH - a step-scheme heterojunction for efficient photocatalytic hydrogen evolution, J. Sol-Gel Sci. Technol., 2021, ( Doi: 10.1007/s10971-021-05655-2). ( IF = 2.326 )
153、Chaoyue Zheng, Zhiliang Jin* et al., Erosin sensitized ZnCdS/NiAl hydrotalcite S-scheme heterojunction for efficient photocatalytic hydrogen evolution, Int. J. Hydrogen Energy, 2021, Doi.org/10.1016/j.ijhydene.2021.10.032 . ( IF = 5.816 )
152、Guorong Wang, Zhiliang Jin* et al., Ordered self-supporting NiV LDHs@P-nickel foam nano-array as high-performance supercapacitor electrode, J. Colloid. Interf. Sci., 2021, 583, 1 - 12. ( IF = 8.128 ) ESI 高被引.

151、Yue Cao, Zhiliang Jin* et al., A new allotrope of carbon - graphdiyne synthesis and application in photocatalytic hydrogen evolution with surface plasmon resonance enhancement, Sustain. Energ. Fuels, 2021, 5, 4690 - 4700.（ IF = 8.821）
150、Yongkang Quan, Zhiliang Jin* et al., Tactfully-assembled CuMOF/CdS S-scheme heterojunction for high performance photocatalytic hydrogen evolution under visible light, ACS Appl. Energ. Mater., 2021, ( Doi: 10.1021/acsaem.1c01755 ). （ IF = 6.024 ）
149、Xiangyi Wang, Zhiliang Jin* , Mn_0.05Cd_0.95S/Cu₂SeI p-n heterojunction with high-conductivity for efficiency photocatalytic hydrogen production, J. Ind. Eng. Chem., 2021, 103, 222 - 231. （ IF = 6.064 ）
148、Xudong Jiang, Zhiliang Jin* et al., Ni-MOF-74 derived nickel phosphide and In₂O₃ form S-scheme heterojunction for efficient hydrogen evolution, New J. Chem., 2021, 45, 16155 - 16167. ( IF = 3.591 )
147、Yanan Liu, Zhiliang Jin* et al., Co₃O₄/CeO₂ p-n heterojunction construction and application for efficient photocatalytic hydrogen evolution, Int. J. Hydrogen Energy, 2021, 46(68), 33809 - 33822. （ IF = 5.816 ）
146、Chaoyue Zheng, Zhiliang Jin* et al., Hexagonal CdS assembled with lamellar NiCo LDH form S-scheme heterojunction for photocatalytic hydrogen evolution, Mat. Sci. Semicon. Proc. , 2021, 135(15), 106128. （ IF = 3.927 ）
145、Hongying Li, Zhiliang Jin* et al., Efficient hydrogen production at a rationally designed MoSe₂@Co₃O₄ p-n heterojunction, J. Colloid. Interf. Sci., 2021, 586, 84 – 94. （ IF = 8.128 ）
144、Teng Li, Zhiliang Jin*, Unique ternary Ni-MOF-74/Ni₂P/MoS_x composite for efficient photocatalytic hydrogen production: Role of Ni₂P for accelerating separation of photogenerated carriers, J. Colloid. Interf. Sci., 2021, 605, 385 - 397. （ IF = 8.128 ）
143、Guorong Wang, Zhiliang Jin* et al., Phosphatized mild-prepared-NiCo LDHs cabbage-like sphere exhibit excellent performance as a supercapacitor electrode, New J. Chem., 2021, 45, 251 – 261. （ IF = 3.591 ）
142、Haiming Gong, Zhiliang Jin* et al., A novel materials manganese cadmium sulfide/cobalt nitride for efficiently photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2021, 585, 217 – 228. （ IF = 8.128 ） ESI 高被引.
141、Yang Liu, Zhiliang Jin* et al., High efficiency electron transfer realized over NiS₂/MoSe₂ S-scheme heterojunction in photocatalytic hydrogen evolution, Acta Phys. – Chim. Sin., 2021, 37(6), **. （ IF = 2.268 ） ESI 高被引 + 热点文章.
140、Yue Cao, Zhiliang Jin* et al., Regular octahedron Cu-MOFs modifies Mn_0.05Cd_0.95S nanoparticles to form a S-scheme heterojunction for photocatalytic hydrogen evolution, Int. J. Hydrogen Energ., 2021, 46(10), 7230 - 7240. （ IF = 5.816 ）ESI 高被引.
139、Yuanpeng Wang,Zhiliang Jin* et al., Amorphous Co₃S₄ nanoparticle-modified tubular g-C₃N₄ forms step - scheme hetrojunctions for photocatalytic hydrogen production, Catal. Sci. Technol., 2021, 11, 943 - 955. （ IF = 6.119 ） ESI 高被引.
138、Junke Li, Zhiliang Jin* et al., 0D Cd_xZn_1-xS and amorphous Co₉S₈ formed S-scheme heterojunction boosting photocatalytic hydrogen evolution, Mole. Catal., 2021, 501, 111378. （ IF = 5.062 ）
137、Junke Li, Zhiliang Jin* et al., Rational design of a cobalt sulfide/bismuth sulfide S-scheme heterojunction for efficient photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2021, 592, 237 – 248. （ IF = 8.128 ）
136、Guorong Wang, Zhiliang Jin* et al., Oxygen-vacancy-rich hydrated bimetallic chloride for supercapacitor cathode with remarkable enhanced performance, Int. J. Energ. Res., 2021, 45(2), 2899 – 2911. （ IF = 5.164 ）
135、Hongying Li, Zhiliang Jin* et al., Hollow nanorods and amorphous Co₉S₈ quantum dots construct S-scheme heterojunction for efficient hydrogen evolution, J. Phys. Chem. C, 2021, 125(1), 648 – 659. （ IF = 4.126 ）ESI 高被引.
134、Mengxue Yang, Zhiliang Jin* et al., Pristine hexagonal CdS assembled with NiV LDH nanosheet formed p-n heterojunction for efficient photocatalytic hydrogen evolution, Appl. Surf. Sci., 2021, 548, 149212. （ IF = 6.707 ）
133、Yanbing Li, Zhiliang Jin* et al., Ni, Co-based selenide anchored g-C₃N₄ for boosting photocatalytic hydrogen evolution, Acta Phys. – Chim. Sin., 2021, 37(10), **. （ IF = 2.268 ） ESI 高被引.
132、Yuanpeng Wang, Zhiliang Jin* et al., Rational design of a core-shell-shaped flowerlike Mn_0.05Cd_0.95S@NiAl-LDH structure for efficient hydrogen evolution, Catal. Lett., 2021, 151, 634 – 647. （ IF = 3.186 ）
131、Yanbing Li, Zhiliang Jin* et al., CoAl LDH@Ni-MOF-74 S-scheme heterojunction for efficient hydrogen evolution, Trans Tianjin Univ., 2021, 27(2), 127 – 138.
130、Teng Yan, Zhiliang Jin* et al., Rational design of S-scheme heterojunction photocatalyst based on g-C₃N₄/α-Fe₂O₃ supported 0D Co₃S₄ nanoparticles, Energ. Fuel., 2021, 35(1), 856 – 867. （ IF = 3.605 ） ESI 高被引.
129、Peng Su, Zhiliang Jin* et al., Mn_0.05Cd_0.95S decorated MOF-derived Co₉S₈ hollow polyhedron for efficient photocatalytic hydrogen evolution, Int. J. Energ. Res., 2021, ( Doi: 10.1002/er.6632 ). （ IF = 5.164 ）
128、Yongkang Quan, Zhiliang Jin* et al., Enhanced effect of CdS on amorphous Mo₁₅S₁₉ for photocatalytic hydrogen evolution, New J. Chem., 2021, 45, 3920 – 3931. （ IF = 3.591 ）
127、Dujuan Li, Zhiliang Jin* et al., S-scheme W₁₈O₄₉/Mn_0.2Cd_0.8S heterojunction for improved photocatalytic hydrogen evolution, ChemCatChem, 2021, 13, 2179 - 2190.（ IF = 5.686 ）
126、Yanan Liu, Zhiliang Jin* et al., Amorphous CoSx growth on CaTiO₃ nanocubes formed S-scheme hetrojunction for photocatalytic hydrogen production, Energ. Fuel, 2021,（Doi: 10.1021/acs.energyfuels.1c00007）. （ IF = 3.605 ）
125、Chaoyue Zheng, Zhiliang Jin* et al., Cd_0.8Mn_0.2S/MoO₃ composite with S-scheme heterojunction for efficient photocatalytic hydrogen evolution, Dalton Trans., 2021, 50, 5360 – 5369. （ IF = 4.390 ）
124、Teng Li, Zhiliang Jin* et al., 2D CoP supported 0D WO₃ constructed S-scheme for efficient photocatalytic hydrogen evolution, Inter. J. Hydrogen Energy, 2021, 46(39), 20560 – 20572. （ IF = 5.816 ）ESI 高被引.
123、Zhaobo Fan, Zhiliang Jin* et al., CeO₂ nanoparticles dispersed on CoAl-LDH hexagonal nanosheets as 0D/2D binary composite for enhanced photocatalytic hydrogen evolution, Surf. Interfaces, 2021, 24, 101105. （ IF = 4.837 ）
122、Hongying Li, Zhiliang Jin* et al., Efficient photocatalytic hydrogen evolution over graphdiyne boosting with cobalt sulfide formed S-scheme heterojunctions, Chin. J. Catal., 2021, 42, (Doi: 10.1016/S1872‐2067(21)63818‐4). （ IF = 8.271 ）
121、Xudong Jiang, Zhiliang Jin* et al., ZIF-9 derived cobalt phosphide and In₂O₃ as co-catalysts for efficient hydrogen production, Mole. Catal., 2021, 507, 111551. （ IF = 5.062 ）
120、Kaicheng Yang, Zhiliang Jin* et al., Visible-light driven S-scheme Mn_0.2Cd_0.8S/CoTiO₃ heterojunction for photocatalytic hydrogen evolution, Renew. Energ, 2021, 173, 389 – 400. （ IF = 8.001 ）
119、Xiangyi Wang, Zhiliang Jin* et al., Cuboidal Cu₂O nanoparticles dispersed granular Mn_0.05Cd_0.95S form a p-n heterojunction for efficient photocatalytic hydrogen evolution, Int. J. Energy. Res., 2021, 45(10), 14959 - 14970. （ IF = 5.164 ）
118、Teng Li, Zhiliang Jin* et al., Design and preparation of a ternary MoC-QDs/C/Mo-S heterojunction for enhanced Eosin Y-sensitized photocatalytic hydrogen evolution, New J. Chem., 2021, 45, 11905 - 11917.（ IF = 4.174 ）ESI 高被引.
117、Haiming Gong, Zhiliang Jin* et al., A new allotrope of carbon -- graphdiyne (g-C_nH_2n-2) boosting with Mn_0.2Cd_0.8S form S-scheme heterjunction for efficient photocatalytic hydrogen evolution, Adv. Mater. Interfaces, 2021, 8, **. （ IF = 6.147 ）
116、Mengxue Yang, Zhiliang Jin* et al., Pyramidal CdS polyhedron modified with NiAl LDH to form S-scheme heterojunction for efficient photocatalytic hydrogen evolution, ChemCatChem, 2021, （Doi: 10.1002/cctc.）. （ IF = 5.686 ）
115、Hongying Li, Zhiliang Jin* et al., Eosin Y-sensitized rose-like MoS_x and CeVO₄ construct direct Z-scheme heterojunction for efficient photocatalytic hydrogen evolution, Catal. Sci. Technol., 2021, 11, 4749 - 4762. （ IF = 6.119 ）
114、Kaicheng Yang, Zhiliang Jin* et al., Promotion of the excited electron transfer over MoO₃@Cu₃P p-n heterojunction for photocatalytic hydrogen production under visible light irradiation, Mole. Catal., 2021, 510, 111691. （ IF = 5.062 ）
113、Shanchi Liu, Zhiliang Jin* et al., Hierarchically grown Ni-Mo-S modified 2D CeO₂ for high-efficiency photocatalytic hydrogen evolution, Catal. Lett., 2021, (Doi : 10.1007/s10562-021-03703-8). （ IF = 3.186 ）
112、Yuanpeng Wang, Zhiliang Jin* et al., Strategy of graphdiyne (g-C_nH_2n-2) prepareation coupling with the flower-like NiAl-LDH heterjunctions for efficient photocatalytic hydrogen evolution, Chem. – A European Journal, 2021, 27, 1 - 11. （ IF = 5.236 ）
111、Yue Cao, Zhiliang Jin* et al., Cube Cu₂O modified CoAL-LDH p-n heterojunction for photocatalytic hydrogen evolution, Int. J. Energy. Res., 2021, 45(13), 19014 - 19027. ( IF = 5.164 )
110、Haiming Gong, Zhiliang Jin* et al., Visible-light-driven two dimensional metal-organic framework modified manganese cadmium sulfide for efficient photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2021, 603, 344 – 355. （ IF = 8.128 ）ESI 高被引.
109、Zhaobo Fan, Zhiliang Jin* et al., Cobalt nanoparticles encapsulated in hollow carbon nitride nanotubes for efficient photocatalytic hydrogen evolution, Energ. Technol., 2021, ( Doi: 10.1002/ente.). （ IF = 3.631 ）
108、Dinzhou Xiang, Zhiliang Jin* et al., Amorphous Co₃O₄ quantum dots hybridizing with 3D hexagonal CdS single crystals to construct 0D/3D p-n heterojunction for highly efficient photocatalytic hydrogen evolution, Dalton Trans., 2021, 50, 10501 – 10514.（ IF = 4.390 ）
107、Dujuan Li, Zhiliang Jin* et al., Mn_0.2Cd_0.8S modified with 3D flower-shaped Co₃(PO₄)₂ for efficient photocatalytic hydrogen production, Int. J. Energy. Res., 2021, （Doi: 10.1002/ER.7034）. （ IF = 5.164 ）




2020年
106、 Yanbing Li, Zhiliang Jin* et al., Performance of ZIF-67 - derived fold polyhedrons for enhanced photocatalytic hydrogen evolution, Chem. Eng. J., 2020, 382,123051. ESI 高被引.
105、Lijun Zhang, Zhiliang Jin* et al., Construction strategy of Mo-S@Mo-P heterojunction formed with in-situ phosphating Mo-S nanospheres toward efficient photocatalytic hydrogen production, Chem. Eng. J., 2020, 391, 123545. ESI 高被引.
104、Lijun Zhang, Zhiliang Jin* et al., MOFs-derived Cu₃P@CoP p-n heterojunction for enhanced photocatalytic hydrogen evolution, Chem. Eng. J., 2020, 395, 125113. ESI 高被引.
103、Lijun Zhang, Zhiliang Jin* et al., Performance of Ni-Cu bimetallic co-catalyst g-C₃N₄ nanosheets for improve the hydrogen evolution, J. Mater. Sci. Technol., 2020, 49, 144 - 156. ESI 高被引 + 热点文章.
102、Yanbing Li, Zhiliang Jin* et al., Distinctive improved synthesis and application extensions graphdiyne for efficient photocatalytic hydrogen evolution, ChemCatChem, 2020, 12, 1985 - 1995.ESI 高被引.
101、Lijun Zhang, Zhiliang Jin* et al., Performance of WO₃/g-C₃N₄ heterojunction composite boosting with NiS for photocatalytic hydrogen evolution, Appl. Surf. Sci., 2020, 499, 143862. ESI 高被引.
100、Lijun Zhang, Zhiliang Jin* et al., Unique synergistic effects of ZIF-9(Co)-derived cobalt phosphide and CeVO₄ heterojunction for efficient hydrogen evolution, Chin. J. Catal., 2020, 41, 82 - 94. ESI 高被引.
99、Qiyan Jian, Zhiliang Jin* et al., Amorphous tungsten phosphosulphide modified CdS nanorods as highly efficient electron-cocatalyst for enhanced photocatalytic hydrogen production, Phys. Chem. Chem. Phys., 2020, 22, 1932 - 1943. 亮点文章 + ESI 高被引.
98、Yanbing Li, Zhiliang Jin* et al., Phosphating 2D CoAl-LDH anchored on 3D self-assembled NiTiO₃ hollow rod for efficient hydrogen evolution, Catal. Sci. Technol., 2020, 10, 2931 – 2947.
97、Haiyu Wang, Zhiliang Jin* et al., High electron conductivity of Ni/Ni₃C nanoparticles anchored on C-rich graphitic carbon nitride for obviously improving hydrogen generation, Ind. Eng. Chem. Res. (I&EC), 2020, 59(19), 8974 – 8983. ESI 高被引.
96、Xuqiang Hao, Zhiliang Jin* et al., TiO₂ as an interfacial-charge-transfer-bridge to construct eosin Y-mediated direct Z-scheme electron transfer over Co₉S₈ quantum dot/TiO₂ photocatalyst, Catal. Sci. Technol., 2020, 10, 5267 – 5280.ESI 高被引.
95、Lijun Zhang, Zhiliang Jin* et al., Graphdiyne formed S-scheme heterojunction composite for efficient photocatalytic hydrogen evolution over rational design novel CuI-GD/g-C₃N₄ composite, Sustainable Energy and Fuels, 2020, 4, 5088 - 5101.
94、Xian Yan, Zhiliang Jin* et al., 3D layered nano-flower Mo₁₅S₁₉ anchored with CoP nanoparticles form double proton adsorption site for enhanced photocatalytic hydrogen evolution under visible light driven, Int. J. Hydrogen Energ., 2020, 45, 2578 – 2592.ESI 高被引.
93、Teng Yan, Zhiliang Jin* et al., CoP nanoparticles as cocatalyst modified the CdS/NiWO₄ p-n heterojunction to produce hydrogen efficiently, New J. Chem., 2020, 44, 1426 - 1438.
92、Yue Cao, Zhiliang Jin* et al., An amorphous nickel boride-modified Zn_xCd_1-xS solid solution for enhanced photocatalytic hydrogen evolution, Dalton. Trans., 2020, 49, 1220 – 1231.
91、Yupeng Zhang, Zhiliang Jin* et al., Efficient photocatalytic hydrogen production achieved by WO₃ coupled with NiP₂ over ZIF-8, Catal. Surv. Asia, 2020, 24(1), 59 - 69.
90、Yuanpeng Wang, Zhiliang Jin* et al., Rational design of all-solid-state 0D/2D Mn_0.2Cd_0.8S/CeO₂ direct Z-scheme for photocatalytic hydrogen evolution, Energ. Fuel, 2020, 34(2), 2599 - 2611.
89、Hongying Li, Zhiliang Jin* et al., Based on amorphous carbon C@Zn_xCd_1-xS/Co₃O₄ composite for efficient photocatalytic hydrogen evolution, Int. J. Hydrogen Energ., 2020, 45, 8405 - 8417.
88、Haiming Gong, Zhiliang Jin* et al., Dodecahedron ZIF-67 anchoring ZnCdS particles for photocatalytic hydrogen evolution, Mole. Catal., 2020, 485, 110832.ESI 高被引.
87、Yang Liu, Zhiliang Jin* et al., Self-assembly of zinc cadmium sulfide nanorods into nanoflowers with enhanced photocatalytic hydrogen production activity, J. Colloid. Interf. Sci., 2020, 567, 357 – 368.ESI 高被引.
86、Xian Yan, Zhiliang Jin* et al., Rational design of a novel p-n heterojunction based on 3D layered nanoflower MoS_x supported CoWO₄ nanoparticles for superior photocatalytic hydrogen generation, J. Colloid. Interf. Sci., 2020, 569, 34 – 49.
85、Junke Li, Zhiliang Jin* et al., 0D/2D spatial structure of Cd_xZn_1-xS/Ni-MOF-74 for efficient photocatalytic hydrogen evolution, Dalton Trans., 2020, 49, 5143 – 5256.ESI 高被引.
84、Hongying Li, Zhiliang Jin* et al., Zn_xCd_1-xS nanoparticles dispersed on CoAl-layered double hydroxide in 2D heterostructure for enhanced photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2020, 572, 62 – 73.ESI 高被引.
83、Peng Su, Zhiliang Jin* et al., Enhanced hydrogen evolution over sea-urchin-structure NiCoP decorated ZnCdS photocatalyst, Catal. Lett., 2020, 150(10), 2937 – 2950.
82、Guorong Wang, Zhiliang Jin* et al., “Ship in a Bottle” design of ZIF-9@CoAl LDH hybrid compound as a high performance asymmetric supercapacitor, New J. Chem., 2020, 44, 7528 – 7540.
81、Junke Li, Zhiliang Jin* et al., Synergistic effect of MoS₂ over WP photocatalyst for promoting hydrogen production, J. Solid State Chem., 2020, 288, 121419.
80、Guorong Wang, Zhiliang Jin* et al., Ostensibly phosphatized NiAl LDHs nanoflowers with remarkable charge storage property for asymmetric supercapacitors, J. Colloid. Interf. Sci., 2020, 577, 115 – 126.
79、Yue Cao, Zhiliang Jin* et al., Amorphous NiCoB nanoalloy modified Mn_0.05Cd_0.95S for potocatalytic hydrogen evolution, Mole. Catal., 2020, 492, 111001.
78、Haiming Gong, Zhiliang Jin* et al., Mn_0.2Cd_0.8S nanorods assembled with 0D CoWO₄ nanoparticles formed p-n heterojunction for efficient photocatalytic hydrogen evolution, Int. J. Hydrogen Energ., 2020, 45, 26733 - 26745.
77、Hongying Li, Zhiliang Jin* et al., Phosphated 2D MoS₂ nanosheets and 3D NiTiO₃ nanorods for efficient photocatalytic hydrogen evolution, ChemCatChem, 2020, 12(21), 5492 – 5503.
76、Teng Yan, Zhiliang Jin* et al., Efficient photocatalytic hydrogen production by Mn_0.05Cd_0.95S nanoparticles anchored on cubic NiSe₂, New J. Chem., 2020, 44, 14879 – 14889.
75、Guorong Wang, Zhiliang Jin* et al., Facile synthesis of difunctional NiV LDH@ZIF-67 p-n junction: Serve as prominent photocatalyst for hydrogen evolution and supercapacitor electrode as well, Renew. Energ., 2020, 162, 535 – 549.
74、Peng Su, Zhiliang Jin* et al., Sea-urchin-structure NiCo₂O₄ decorated Mn_0.05Cd_0.95S p-n heterojunction for enhanced photocatalytic hydrogen evolution, Dalton Trans., 2020, 49, 13393 – 13405.


2019年
73、Yupeng Zhang, Zhiliang Jin* et al., Charge separation and electron transfer routes modulated with Co-Mo-P over g-C₃N₄ photocatalyst, Mole. Catal., 2019, 462, 46 - 55.
72、Haiyu Wang, Zhiliang Jin* et al., A rational designed W-doped Co-ZIF-9 based Co₃S₄ composite photocatalyst for efficient visible-light-driven photocatalytic H₂ evolution, Sustain. Energ. Fuels, 2019, 3, 173 - 183.
71、Yanbing Li, Zhiliang Jin* et al., Effect of electron-hole separation in MoO₃@Ni₂P hybrid nanocomposite as highly efficient metal-free photocatalyst for H₂ production, J. Colloid. Interf. Sci., 2019, 537, 629 - 639.
70、Guorong Wang, Zhiliang Jin* , Function of NiSe₂ over CdS nanorods for enhancement of photocatalytic hydrogen production — from preparation to mechanism, Appl. Sur. Sci., 2019, 467 - 468, 1239 - 1248.
69、Yanbing Li, Zhiliang Jin* et al., Unique photocatalytic activities of transition metal phosphide for hydrogen evolution, J. Colloid. Interf. Sci., 2019, 541, 287 – 299.
68、Yanbing Li, Zhiliang Jin* et al., Controllable design of Zn-Ni-P on g-C₃N₄ for efficient photocatalytic hydrogen production, Chin. J. Catal., 2019, 40(3), 390 – 402.
67、Zejin Wang, Zhiliang Jin* et al., Synergistic interface phenomena between MOFs, NiPx for efficient hydrogen production, Mole. Catal., 2019, 467, 78 – 86.
66、Lijun Zhang, Zhiliang Jin* et al., Properties of iron vanadate over CdS nanorods for efficient photocatalytic hydrogen production, New J. Chem., 2019, 43, 3609 – 3618.
65、Xian Yan, Zhiliang Jin* et al., Controllable design of double metal oxide (NiCo₂O4) modified CdS for efficient photocatalytic hydrogen production, Phys. Chem. Chem. Phys., 2019, 21, 4501 – 4512.
64、Yupeng Zhang, Zhiliang Jin* et al., Effect of Ni(OH)₂ on CdS@g-C₃N₄ composite for efficient photocatalytic hydrogen production, Catal. Lett., 2019, 149(5), 1174 - 1185.
63、Qiyan Jian, Zhiliang Jin* et al., Photoelectron directional transfer over g-C₃N₄/CdS heterojunction modulated with WP for efficient photocatalytic hydrogen evolution, Dalton Trans., 2019, 48, 4341 – 4352.
62、Guorong Wang, Zhiliang Jin*, Rationally designed functional Ni₂P nanoparticles as co-catalyst modified CdS@g-C₃N₄ heterojunction for efficient photocatalytic hydrogen evolution, Chem. Select, 2019, 4(12), 3602 – 3610.
61、Haiyu Wang, Zhiliang Jin* et al., CoSe₂/CdS-diethylenetriamine coupled with P clusters for efficient photocatalytic hydrogen evolution, Dalton Trans., 2019, 48, 4015 – 4025.
60、Yongke Zhang, Zhiliang Jin* et al., An orderly assembled g-C₃N₄, rGO and Ni₂P photocatalyst for efficient hydrogen evolution, Int. J. Hydrogen Energ., 2019, 44, 10316 - 10327.
59、Yongke Zhang, Zhiliang Jin*, Accelerated charge transfer via nickel tungstate modulated cadmium sulfide p-n heterojunction for photocatalytic hydrogen evolution, Catal. Sci. Technol., 2019, 9, 1944 – 1960.
58、Lijun Zhang, Zhiliang Jin* et al., Ferrous oxalate dehydrate over CdS as Z-scheme photocatalytic H₂ evolution, J. Solid State Chem., 2019, 274, 286 - 294.
57、Lijun Zhang, Zhiliang Jin* et al., Growth of Zn_0.5Cd_0.5S/α-Ni(OH)₂ heterojunction by a facile hydrothermal transformation efficiently boosting photocatalytic hydrogen production, New J. Chem., 2019. 43, 6411 - 6421.
56、Yongke Zhang, Zhiliang Jin* et al., Effective electron-hole separation over a controllably constructed WP/UiO-66/CdS heterojunction to achieve efficiently improved visible-light-driven photocatalytic hydrogen evolution, Phys. Chem. Chem. Phys., 2019, 21, 8326 - 8341.
55、Haiyu Wang, Zhiliang Jin*, Boosting photocatalytic hydrogen evolution achieved by rationally designed/constructed carbon nitride with ternary cobalt phosphosulphide, J. Colloid. Interf. Sci., 2019, 548, 303 - 311.
54、Yupeng Zhang, Zhiliang Jin* et al., Special Z-scheme CdS@WO₃ hetero-junction modified with CoP for efficient hydrogen evolution, Int. J. Hydrogen Energ., 2019, 44(26), 13232 - 13241.
53、Junnan Pu, Zhiliang Jin* et al., g-C₃N₄/Cu₃P/UiO-66 ternary composites for enhanced visible light photocatalytic H₂ evolution, Chem. Select, 2019, 4(12), 5459 – 5469.
52、Qiyan Jian, Zhiliang Jin* et al., Orderly-designed functional phosphide nanoparticles modified g-C₃N₄ for efficient photocatalytic hydrogen evolution, J. Sol-Gel Sci. Techn., 2019, 90, 565 - 577.
51、Yanbing Li, Zhiliang Jin* et al., Insights into the unique rolet of cobalt phosphide for boosting hydrogen evolution activity based on MIL-125-NH₂, Int. J. Hydrogen Energ., 2019, 44, 17909 - 17921.
50、Zejin Wang, Zhiliang Jin* et al., Inserting MOF into flaky CdS photocatalyst forming special structure and active sites for efficient hydrogen production, Int. J. Hydrogen Energ., 2019, 44(36), 19640 – 19649.
49、Lijun Zhang, Zhiliang Jin* et al., Zn-Ni-P nanoparticles decorated g-C₃N₄ nanosheets applicated as photoanode in photovoltaic fuel cells, Catal. Lett., 2019, 149(9), 2397 - 2407.
48、Xian Yan, Zhiliang Jin* et al., Sustainable and efficient hydrogen evolution over a noble metal-free WP double modified Zn_xCd_1-xS photocatalyst driven by visible-light, Dalton Trans., 2019, 48, 11122 - 11135.
47、Yongke Zhang, Zhiliang Jin*, Boosting photocatalytic hydrogen evolution achieved by NiS_x coupled with g-C₃N₄@ZIF-67 heterojunction, J. Phys. Chem. C., 2019, 123, 18248 – 18263.
46、Qiyan Jian, Zhiliang Jin* et al., Properties of monoclinic wolframite structure InWO₄ for efficient and sustainable photocatalytic hydrogen evolution, New J. Chem., 2019. 43, 12668 - 12677.
45、Ruizhou Gan, Zhiliang Jin* et al., CoSe₂ clusters as an efficient cocatalyst modified CdS nanorod for enhance visible light photocatalytic H₂ evolution, Catalyst, 2019, 9(7), 616.
44、Yang Liu, Zhiliang Jin* et al., CdS photocorrosion prevent from MoSe₂ modification, Catal. Surv. Asia, 2019, 23, 231 – 244.
43、Yang Liu, Zhiliang Jin* et al., Noble-metal-free visible light driven hetero-structural Ni/Zn_xCd_1-xS photocatalyst for efficient hydrogen production, Catal. Lett., 2019, 149(7), 1788 - 1799.
42、Lijun Zhang, Zhiliang Jin*, Effective electron-hole separation over controllable construction of CdS/Co-Ni-P core/shell nanophotocatalyst for improved photocatalytic hydrogen evolution under visible-light-driven, Catal. Surv. Asia, 2019, 23, 219 - 230.
41、Yang Liu, Zhiliang Jin* et al., 2D/1D Zn_0.7Cd_0.3S p-n heterogeneous junction enhanced with NiWO₄ for efficient photocatalytic hydrogen evolution, J. Colloid. Interf. Sci., 2019, 554, 113 – 124.
40、Yongke Zhang, Zhiliang Jin* et al., Orthorhombic WP co-catalyst coupled with electron transmission bridge UiO-66 for efficient visible-light-driven H₂ evolution, J. Colloid. Interf. Sci., 2019, 556, 689 – 703.
39、Guorong Wang, Zhiliang Jin* et al., Phosphated NiCo LDHs 1D dendritic electrode for high energy asymmetric supercapacitor, Dalton Trans., 2019, 48, 14853 – 14863.
38、Qiyan Jian, Zhiliang Jin* et al., Enhanced photocatalytic hydrogen evolution over semi-crystalline tungsten phosphide, Int. J. Hydrogen Energ., 2019, 44(49), 26848 – 26862.
37、Haiming Gong, Zhiliang Jin* et al., WP modified the S-scheme Zn_0.5Cd_0.5S/WO₃ for efficient photocatalytic hydrogen production, New J. Chem., 2019, 43, 19159 – 19171.
36、Yuanpeng Wang, Zhiliang Jin* et al., Hydroxides Ni-Ce-OH as a novel holes storage layer for enhanced photocatalytic hydrogen evolution, Dalton Trans., 2019, 48, 17660 – 17672.
35、Yongke Zhang, Zhiliang Jin*, Synergistic enhancement of hydrogen production by ZIF-67(Co) derived Mo-Co-S modified g-C₃N₄/rGO photocatalyst, Catal. Lett., 2019, 149(1),34 - 48.


2018年

34、Hao Yang, Zhiliang Jin* et al., Ni-Mo-S nanoparticles modified graphitic C₃N₄ for efficient hydrogen evolution, Appl. Surf. Sci., 2018, 427, 587-597.
33、Haiyu Wang, Zhiliang Jin* et al., Novel strategy of defect-induced graphite nitride carbon preparation and photocatalytic performance, Catal. Lett., 2018, 148 (5), 1296 - 1308.
32、Kai Fan, Zhiliang Jin* et al., Distinctive organized molecular assemble of MoS₂, MOF and Co₃O₄ for efficient dye - sensitized photocatalytic H₂ evolution, Catal. Sci. Technol., 2018, 8, 2352 - 2363.
31、Haiyu Wang, Zhiliang Jin* et al., Strategy of nitrogen defects sponge from g-C₃N₄ nanosheets and Ni-Bi-Se complex modification for efficient dye - sensitized photocatalytic H₂ evolution, Mole. Catal., 2018, 453, 1-11.
30、Yupeng Zhang, Zhiliang Jin* et al., Charge transfer behaviors over MOF-5@g-C₃N₄ with Ni_xMo_1-xS₂modification, Int. J. Hydrogen Energ., 2018, 43(21), 9914 – 9923.
29、Hao Yang, Zhiliang Jin* et al., Visible light harvesting and spatial charge separation over creative Ni/CdS/Co₃O₄ photocatalyst, J. Phys. Chem. C., 2018, 122(19), 10430 – 10441.
28、Hao Yang, Zhiliang Jin* et al., Light-assisted synthesis MoS_x as a noble metal free cocatalyst formed heterojunction CdS/Co₃O₄ photocatalyst for visible light harvesting and spatial charge separation, Dalton Trans., 2018, 47, 6973 – 6985.
27、Zejin Wang, Zhiliang Jin* et al., Efficient hydrogen production over MOFs (ZIF-67) and g-C₃N₄ boosted with MoS₂ nanoparticles, Int. J. Hydrogen Energ., 2018, 43, 13039 – 13050.
26、Duanduan Liu, Zhiliang Jin* et al., Light harvesting and charge management by Ni₄S₃ modified MOF and rGO in the process of photocatalysis, J. Colloid. Interf. Sci., 2018, 529, 44 – 52.
25、Yongke Zhang, Zhiliang Jin* et al., CdS p-n heterojunction co-boosting with Co₃O₄ and Ni-MOF-74 for photocatalytic hydrogen evolution, Dalton Trans., 2018, 47, 11176 – 11180.
24、Yongke Zhang, Zhiliang Jin* et al., Well-regulated nickel nanoparticles functional modified ZIF-67 (Co) derived Co₃O₄/CdS p-n heterojunction for efficient photocatalytic hydrogen evolution, Appl. Surf. Sci., 2018, 462(31), 213 - 225.
23、Zejin Wang, Zhiliang Jin* et al., Orderly-designed Ni₂P nanoparticles on g-C₃N₄ and UiO-66 for efficient solar water splitting, J. Colloid. Interf. Sci., 2018, 532, 287 – 299.
22、Haiyu Wang, Zhiliang Jin*, Design and synthesis of polymeric carbon nitride @ zeolitic imidazolate frameworks (CoWS) semiconductor junction nanowires for efficient photocatalytic hydrogen evolution, New J. Chem., 2018, 42, 17396 - 17406.


2017年

21、Xuqiang Hao, Zhiliang Jin* et al., Peculiar synergetic effect of MoS₂ quantum dots and graphene on metal-organicfFrameworks for photocatalytic hydrogen evolution, Appl. Catal. B – Environ., 2017, 210, 45 - 56.ESI 高被引.
20、Hao Yang, Zhiliang Jin* et al., Fabrication and behaviors of CdS on Bi₂MoO₆ thin film photoanodes, RSC Adv., 2017, 7, 10774 – 10781.
19、Hao Yang, Zhiliang Jin* et al., Fivefold enhanced photoelectrochemical properties of ZnO nanowire arrays modified with C₃N₄ quantum dots, Catalysts, 2017, 7(4), 99, 1 – 12.
18、Duanduan Liu, Zhiliang Jin* et al., Modulation of the excited-electron recombination process by introduce g-C₃N₄ on Bi-based bimetallic oxides photocatalyst, Appl. Surf. Sci., 2017, 423, 255 – 265.
17、Hao Yang, Zhiliang Jin* et al., The Roles of Ni nanoparticles over CdS nanorods for improved photocatalytic stability and activity, Superlattice. Microst., 2017, 111, 687 – 695.
16、Kai Fan, Zhiliang Jin* et al., Promotion of the excited electron transfer over Ni- and Co - sulfide co-doped g-C₃N₄ photocatalyst (g-C₃N₄/Ni_xCo_1-xS₂) for hydrogen Production under visible light irradiation, Scientific Report, 2017, 7, 7710:1-10.
15、Duanduan Liu, Zhiliang Jin* et al., Charge transmission channel construction between MOF and rGO by means of Co-Mo-S modification, Catal. Sci. Technol., 2017, 7, 4478 – 4488.
14、Hao Yang, Zhiliang Jin* et al., Exploration of Zr-metal organic framework (UiO-66) as highly efficient catalyst for photocatalytic hydrogen production, Nanoscale Res. Lett., 2017, 12, 539, 1-10.
13、Kai Fan, Zhiliang Jin* et al., Construction of CuO-modified zeolitic imidazolate framework-9 (ZIF-9) for photocatalytic hydrogen evolution, Chin. J. Catal., 2017, 38, 2056-2066.


2016年
12、Xuqiang Hao, Zhiliang Jin* et al., Enhanced surface electron transfer with the aid of methyl viologen on the Co₃O₄-g-C₃N₄ photocatalysts, Chem. Lett., 2016, 45(2), 116 – 118.
11、Xuqiang Hao, Zhiliang Jin* et al., Modulating photogenerated electron transfer with selectively exposed Co-Mo facet on a novel amorphous g-C₃N₄/CoxMo_1-xS₂ photocatalyst, RSC Adv., 2016, 6, 23709 - 23717.
10、Xuqiang Hao,Zhiliang Jin* et al., Functionalization of TiO₂ with graphene quantum dots for efficient hydrogen evolution, Superlattice. Microst., 2016, 94, 237 – 244.
9、Xuqiang Hao, Zhiliang Jin* et al., Quantum confinement effect of graphene-like C₃N₄ nanosheets for efficient photocatalytic hydrogen production from water splitting, Acta Phys. – Chim. Sin., 2016, 32(10), 2581-2590.ESI 高被引


2016年以前
8、Xuqiang Hao, Zhiliang Jin* et al., Behavior of borate complex anion on the stabilities and the hydrogen evolutions of Zn_xCo_3-xO₄ decorated graphene, Superlattice. Microst., 2015, 82, 599 – 611.
7、Zhiliang Jin* et al., Efficient photocatalytic hydrogen evolution over platinum and boron Co-doped TiO₂ photoatalysts, Mater. Sci., 2014, 20(4), 392 – 395.
6、Zhiliang Jin, Gongxuan Lu*, Modification of TiO₂ photocatalysts with metalloid anions and the applicaton in salt solution system, J. Inorg. Mater., 2011, 26(6), 571 - 578.
5、Zhiliang Jin*,Gongxuan Lu*, CO₂ chemistry - actuality and expectation, Prog. Chem., 2010, 21(6), 1102 - 1115.
4、Zhiliang Jin, Gongxuan Lu* et al.,5.1% quantum efficiency for stable hydrogen generation over eosin-sensitized CuO/TiO₂ photocatalyst under visible light irradiation, Catal. Commun., 2007, 8, 1267 - 1273.ESI 高被引 + 热点文章.
3、Zhiliang Jin, Gongxuan Lu* et al.,Improvement quantum yield for photocatalytic hydrogen generation under visible light irradiation over eosin sensitized TiO₂ ― investigation of different noble metal loading, J. Mol. Catal. A - Chem., 2006, 259, 275 - 280.
2、Zhiliang Jin, Wu Li* et al., Application and synthesis of inorganic whisker materials, Prog. Chem., 2003, 15(4), 264 - 274.
1、Zhiliang Jin, Gongxuan Lu*, Efficiently photocatalytic hydrogen evolution over Pt^x-TiO_2-yB_y catalysts in a ternary system of K⁺, Mg²⁺, B₄O₇^2-— H₂O at 25℃, Energ. Fuel., 2005, 19, 1126 - 1132.

2、专著
★ 《无机晶须》 李武，靳治良，金培鹏等 著，化学工业出版社，北京，2005 年 6 月 第 1 版。
★ 《化工设计》 刘荣杰 主编，靳治良、李志洲 副主编，中国石化出版社（普通高等教育 “ 十二五 ” 规划教材），北京，2015 年 7 月 第 2 版。
★ 《干旱环境下古代壁画保护成套技术集成与应用示范研究》 陈港泉 主编，李燕飞、樊再轩、李茸、靳治良、等 著，科学出版社，北京，2019 年 12 月 第 1 版。


3、发明专利（ 7 件，明细略）




E-mail: zl-jin@nun.edu.cn
**@163.com