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成果及论文

1. 科研论文(截止2024.03)

[1]      Yangrui Zhang1, Haiyang Zhang1, Renpan Deng*, Yikun Cheng, Yuhao Wu, Jinli Zhang*, Zn2SnO4/SnO2/g-C3N4 heterojunction: high efficiency photocatalytic degradation of Rhodamine B in simulated visible light, Chemical Engineering Science, 2024, 285, 119551. 2023-11-22. https://doi.org/10.1016/j.ces.2023.119551. (共同一作,SCI收录,化工三大刊之一,中科院二区Top期刊,IF: 4.7)

[2]      Zihan Guo, Wencai Peng, Jian Li, Feng Li, Qiangang Zhang, Lijie Yang, Dongyang Xie, Yanzhao Dong*, Jinli Zhang, Haiyang Zhang*, Hydrochlorination of acetylene catalyzed by mesoporous carbon with hierarchical assembly of polyimide nanosheets, New Journal of Chemistry (ISSN: 1144-0546), 2023, 47(29): 14019-14029. 2023-06-23. https://doi.org/10.1039/D3NJ01710A. (通讯作者,SCI收录,中科院三区,IF: 3.925)

[3]      Jian Li, Haiyang Zhang,* Haixia Liang, Lisha Yao, Chengcheng Li, Jinli Zhang*, Construction of Ru single-atom catalyst with abundant Ru-N active domains for highly efficient acetylene hydrochlorination, Molecular Catalysis ISSN: 2468-8231, 2023, 543, 113158. 2023-04-18 https://doi.org/10.1016/j.mcat.2023.113158. (SCIEI收录,中科院二区,IF5.089)

[4]      Minghui Huang, Haiyang Zhang,* Danqi Wang, Qiangang Zhang, Juan Zeng, Lijie Yang, Yanzhao Dong, Aiqun Kong,* Jinli Zhang*, Non-noble metal Fe2O3@NiO as efficient bifunctional catalysts for water splitting, ChemistrySelect, ISSN: 2365-6549, 2023, 8 (12), e202300111. 2023-03-22. https://doi.org/10.1002/slct.202300111. (SCI收录,中科院四区,IF2.307)

[5]      Qiangang Zhang, Haiyang Zhang,* Minghui Huang, Zihan Guo, Lijie Yang, Wencai Peng, * Jinli Zhang, Phthalimide ligand coordination as a critical “key” for constructing chlorine–platinum–nitrogen single-site catalysts for effective acetylene hydrochlorination, ACS Sustainable Chemistry & EngineeringISSN: 2168-0485, 2023, 11(7): 3103–3113. 2023-02-07. https://doi.org/10.1021/acssuschemeng.2c07478. (SCIEI 收录,TOP期刊,中科院一区,IF8.4)

[6]      Lijie Yang, Haiyang Zhang,* Linfeng Li, Wencai Peng, Yanzhao Dong, Dongyang Xie, Shupei Chen, Qiangang Zhang, Ji Qi, Zihan Guo, Minghui Huang, Jinli Zhang,* Construction of highly dispersed Cu–P/Cl active sites using methyldiphenyloxophosphine for efficient acetylene hydrochlorination, ACS Sustainable Chemistry & EngineeringISSN: 2168-0485, 2023, 11(5): 1666–1677. 2023-01-26. https://doi.org/10.1021/acssuschemeng.2c05381. (SCIEI 收录,TOP期刊,中科院一区,IF9.224)

[7]      Yinglun Liu, Pingji Ge, Yafei Li, Xingwu Zhai, Ke Lu, Xunxin Chen, Jueming Yang, Zongyuan Wang,* Haiyang Zhang,* Guixian Ge,* Prussian blue analogues derived Fe-NiCoP reveals the cooperation of Fe doping and phosphating for enhancing OER activity, Applied Surface Science ISSN1873-5584, 2023, 615, 156378. 2023-01-12. https://doi.org/10.1016/j.apsusc.2023.156378 (SCI 收录,中科院一区TOP期刊,IF7.392)

[8]      Aiqun Kong, Houjun Zhang, Yifan Sun, Ye Lv, Menghui Liu, Haojie Li, Yifei Wang, Yan Fu,* Haiyang Zhang,* Wei Li, Jinli Zhang,** Surface reconstruction enables outstanding performance of Fe2O3/Ni(OH)2 nanosheet arrays for ultrahigh current density oxygen evolution reaction, Applied Surface Science, 2023, 613, 156023. 2022-12-10. https://doi.org/10.1016/j.apsusc.2022.156023 (SCI 收录,中科院一区TOP期刊,IF7.392)

[9]      Miaomiao Zhang, Haiyang Zhang*, Feng Li, Wencai Peng, Lisha Yao, Yanzhao Dong, Dongyang Xie, Zhenbang Liu, Chengcheng Li, Jinli Zhang, Construction of Ru–N single site for effective acetylene hydrochlorination: Effect of polyethyleneimine modifier, ACS Sustainable Chemistry & EngineeringISSN: 2168-0485, 2022, 10(42), 13991-14000. 2022-10-12 https://doi.org/10.1021/acssuschemeng.2c04210 (SCIEI收录,TOP期刊,中科院一区,IF9.224)

[10]   Feng Li, Haiyang Zhang*, Miaomiao Zhang, Wencai Peng, Lisha Yao, Yanzhao Dong, Jinli Zhang*, Construction of multistage porous carbon materials for the hydrochlorination of acetylene: Impact of nitrogen incorporation, Molecular Catalysis ISSN: 2468-8231, 2022, 527, 112405. 2022-06-03 https://doi.org/10.1016/j.mcat.2022.112405. (SCIEI收录,中科院二区,IF5.089)

[11]   Miaomiao Zhang, Haiyang Zhang*, Feng Li, Lisha Yao, Wencai Peng*, Jinli Zhang, Ru supported on activated carbon and coated with a polydopamine layer for effective acetylene hydrochlorination, Catalysis Science & Technology ISSN: 2044-4753, 2022, 12, 4255–4265. 2022-05-09 https://doi.org/10.1039/D2CY00786J. (SCI收录,中科院二区,IF: 6.177)

[12]   Feng Li, Haiyang Zhang*, Miaomiao Zhang, Linfeng Li, Lisha Yao, Wencai Peng, Jinli Zhang*, Hollow carbon nanospheres decorated with rich pyridinic N+O- for efficient acetylene hydrochlorination, ACS Sustainable Chemistry & Engineering ISSN: 2168-0485, 2022, 10(1): 194-203. 2021-12-20https://doi.org/10.1021/acssuschemeng.1c05661 (SCIEI收录,TOP期刊,中科院一区,IF9.224)

[13]   Jian Li, Haiyang Zhang*, Haixia Liang, Linfeng Li, Jinli Zhang*, High-efficiency catalysis of Ru-based catalysts assisted by triazine-based ligands containing different heteroatoms (N, O, S) for acetylene hydrochlorination, Molecular Catalysis (ISSN: 2468-8231), 2022, 519, 112142. 2022-01-21 https://doi.org/10.1016/j.mcat.2022.112142 (SCIEI收录,中科院二区,IF5.089)

[14]   Bao Wang, Tiantong Zhang, Yawen Liu, Wei Li, Haiyang Zhang*, Jinli Zhang*, Phosphine-oxide organic ligand improved Cu-based catalyst for acetylene hydrochlorination, Applied Catalysis A-General (ISSN: 0926-860X), 2022, 630, 118461. 2021-12-01 https://doi.org/10.1016/j.apcata.2021.118461 (通讯作者,SCI收录,中科院二区,IF5.723,被引频次:7,他引6)

[15]   Lisha Yao, Haiyang Zhang*, Yanqin Li, Miaomiao Zhang, Feng Li, Linfeng Li, Jinli Zhang*, Construction of highly dispersed Au active sites by ice photochemical polishing for efficient acetylene hydrochlorination, New Journal of Chemistry (ISSN: 1144-0546), 2022, 46(8): 3738-3746. 2022-01-19 https://doi.org/10.1039/D1NJ05120B (通讯作者,SCI收录,中科院三区,IF: 3.925)

[16]   Yanqin Li, Chuanming Zhang, Haiyang Zhang,* Linfeng Li, Jinli Zhang,* Rena Oh, Lisha Yao, Ming Cai, Jian Li, Miaomiao Zhang, Feng Li, Effects of N-, P-, or O-containing ligands on gold-based complex catalysts for acetylene hydrochlorination, Applied Catalysis A-General (ISSN: 0926-860X), 2021, 612, 118015. 2021-01-24. https://doi.org/10.1016/j.apcata.2021.118015 (通讯作者,SCIEI收录,中科院二区,IF5.723)

[17]   Jian Li, Haiyang Zhang,* Linfeng Li, Ming Cai, Yanqin Li, Dongyang Xie, Jinli Zhang,* Synergistically catalytic hydrochlorination of acetylene over the highly dispersed Ru active species embedded in P-containing ionic liquids, ACS Sustainable Chemistry & Engineering ISSN: 2168-0485, 2020, 8 (27): 10173–10184. 2020-06-17. https://doi.org/ 10.1021/acssuschemeng.0c02329 (SCIEI收录,TOP期刊,中科院一区,IF9.224,被引频次:17,他引10)

[18]   Ming Cai, Haiyang Zhang,* Baochang Man, Jian Li, Linfeng Li, Yanqin Li, Dongyang Xie, Renpan Deng, Jinli Zhang,* Synthesis of a vinyl chloride monomer via acetylene hydrochlorination with a ruthenium-based N-heterocyclic carbene complex catalyst, Catalysis Science & Technology ISSN: 2044-4753, 2020, 10(11): 3552–3560. 2020-05-04. https://doi.org/10.1039/d0cy00512f (Inside front cover, SCI收录,中科院二区,IF: 6.177,被引频次:21,他引12)

[19]   Jian Li, Haiyang Zhang,* Ming Cai, Linfeng Li, Yanqin Li, Run Zhao, Jinli Zhang,* Enhanced catalytic performance of activated carbon-supported Ru-based catalysts for acetylene hydrochlorination by azole ligands, Applied Catalysis6 A-General (ISSN: 0926-860X), 2020, 592, 117431. 2020-01-22. https://doi.org/10.1016/j.apcata.2020.117431 (通讯作者,SCI收录,中科院二区,IF5.723,被引频次:23,他引15)

[20]   Chuanming Zhang, Haiyang Zhang,* Yanqin Li, Liang Xu,* Jian Li, Linfeng Li, Ming Cai, Jinli Zhang*, Hydrochlorination of acetylene over the activated-carbon-supported Au catalysts modified by N-P-O-containing ligand, ChemCatChem (ISSN: 1867-3880), 2019, 11(15): 3441-3450. 2019-05-28. https://doi.org/10.1002/cctc.201900624 (通讯作者SCI收录, 中科院二区, IF: 5.497, 被引频次:15,他引11)

[21]   Baochang Man, Haiyang Zhang*, Chuanming Zhang, Xing Li, Hui Dai, Feng Yu, Mingyuan Zhu, Bin Dai, Jinli Zhang*, Hydrochlorination of acetylene over the Ru-based catalysts treated by plasma under different atmospheres, Plasma Science and Technology (ISSN: 1009-0630), 2019, 21 (8), 085501: 1-12. 2019-05-08. https://doi.org/10.1088/2058-6272/ab0ee8 (通讯作者SCIEI收录, 中科院二区, IF: 1.842,被引频次:3,他引1)

[22]   Xing Li, Haiyang Zhang*, Baochang Man, Chuanming Zhang, Hui Dai, Bin Dai, Jinli Zhang*, Synthesis of vinyl chloride monomer over carbon-supported tris-(triphenylphosphine) ruthenium dichloride catalysts, Catalysts (ISSN: 2073-4344), 2018, 8 (7), 276. 2018-07-09. https://doi.org/10.3390/catal8070276 (通讯作者,SCI收录,中科院三区,IF4.501,被引频次:7,他引6)

[23]   Chuanming Zhang, Haiyang Zhang*, Baochang Man, Xing Li, Hui Dai, Jinli Zhang*, Hydrochlorination of acetylene catalyzed by activated carbon supported highly dispersed gold nanoparticles, Applied Catalysis A-General, 2018, 566: 15-24. 2018-09-25. https://doi.org/10.1016/j.apcata.2018.08.012 (通讯作者,SCI收录,中科院二区,IF5.723,被引频次:13,他引9)

[24]   Haiyang Zhang, Ruili Guo, Jinli Zhang, Xueqin Li*, Facilitating CO2 transport across mixed matrix membranes containing multifunctional nanocapsules, ACS Applied Materials & Interfaces (ISSN: 1944-8244), 2018, 10(49): 43031−43039. 2018-11-19. https://doi.org/10.1021/acsami.8b15269 (第一作者SCI收录, 中科院二区TOP, IF: 10.383,被引频次:20,他引20)

[25]   Haiyang Zhang, Hailong Tian, Jinli Zhang, Ruili Guo, Xueqin Li*, Facilitated transport membranes with an amino acid salt for highly efficient CO2 separation, International Journal of Greenhouse Gas Control ISSN: 1750-5836, 2018, 78: 85-93. 2018-08-04. https://doi.org/10.1016/j.ijggc.2018.07.014 (第一作者,SCI收录,中科院二区,IF3.738,被引频次:27,他引27)

[26]   Baochang Man, Haiyang Zhang*, Jinli Zhang*, Xing Li, Na Xu, Hui Dai, Mingyuan Zhu, Bin Dai, Oxidation modification of Ru-based catalyst for acetylene hydrochlorination, RSC Advances (ISSN2046-2069), 2017, 7 (38): 23742–23750. 2017-05-03. https://doi.org/10.1039/c7ra01121k (通讯作者,SCI收录,中科院三区,IF3.361,被引频次:29,他引21)

[27]   Baochang Man, Haiyang Zhang*, Chuanming Zhang, Xing Li, Hui Dai, Mingyuan Zhu, Bin Dai, Jinli Zhang*, Effect of Ru/Cl ratio on the reaction of acetylene hydrochlorination, New Journal of Chemistry ISSN1144-0546, 2017, 41 (23), 14675-14682. 2017-10-31. https://doi.org/10.1039/c7nj03863a (通讯作者,SCI收录,中科院三区,IF: 3.925,被引频次:17,他引11)

[28]   Xing Li, Haiyang Zhang*, Baochang Man, Lijuan Hou, Chuanming Zhang, Hui Dai, Mingyuan Zhu, Bin Dai, Yanzhao Dong, Jinli Zhang*, Activated carbon-supported tetrapropylammonium perruthenate catalysts for acetylene hydrochlorination, Catalysts, 2017, 7 (10), 311. 2017-10-24. https://doi.org/10.3390/catal7100311 (通讯作者,SCI收录,中科院三区,IF4.501,被引频次:15,他引12)

[29]   张海洋,李星,张传明,满宝昌,付雁,吴成坤,张金利*,代斌. 卤硅烷体系脱除BP 杂质工艺的现状及发展趋势. 石河子大学学报(自然科学版)(ISSN1007-7383),2017355):529-5362017-10-21

[30]   Haiyang Zhang, Wei Li, Yunhe Jin, Wei Sheng, Maocong Hu, Xianqin Wang*, Jinli Zhang*, Ru-Co(III)-Cu(II)/SAC catalyst for acetylene hydrochlorination, Applied Catalysis B-Environmental, 2016, 189: 56-64. 2016-07-15. https://doi.org/10.1016/j.apcatb.2016.02.030 (第一作者,SCI收录, 中科院一区TOP, IF: 24.319,被引频次:78,他引62)

[31]   Haiyang Zhang, Ruili Guo, Jinpeng Hou, Zhong Wei, Xueqin Li*, Mixed-matrix membranes containing carbon nanotubes composite with hydrogel for efficient CO2 separation, ACS Applied Materials & Interfaces, 2016, 8 (42): 29044-29051. 2016-10-10. https://doi.org/10.1021/acsami.6b09786 (第一作者SCI收录, 中科院二区TOP, IF: 10.383,被引频次:102,他引100)

[32]   Haiyang Zhang, Wei Li, Xueqin Li, Wei Zhao, Junjie Gu, Xueyan Qi, Bin Dai, Jinli Zhang*, Non-mercury catalytic acetylene hydrochlorination over Au–Ba(II)/AC catalysts, Catalysis Science & Technology, 2015, 5 (3): 1870-1877. 2015-01-05. https://doi.org/10.1039/c4cy01399a (第一作者,SCI收录,中科院二区,IF: 5.721,被引频次:67,他引55)

[33]   Haiyang Zhang, Bin Dai*, Wei Li, Xugen Wang, Jinli Zhang*, Mingyuan Zhu, Junjie Gu, Non-mercury catalytic acetylene hydrochlorination over spherical activated-carbon-supported Au–Co(III)–Cu(II) catalysts, Journal of Catalysis, 2014, 316: 141-148. 2014-06-11. https://doi.org/10.1016/j.jcat.2014.05.005 (第一作者,SCI收录, 中科院一区TOP, IF: 8.047,被引频次:115,他引100)

[34]   Haiyang Zhang, Bin Dai*, Xugen Wang, Wei Li, You Han, Junjie Gu, Jinli Zhang*, Non-mercury catalytic acetylene hydrochlorination over bimetallic Au–Co(III)/SAC catalysts for vinyl chloride monomer production, Green Chemistry, 2013, 15 (3): 829-836. 2013-02-07. https://doi.org/10.1039/c3gc36840h (第一作者,SCI收录, 中科院一区TOP, IF: 11.034,被引频次:155,他引140)

[35]   Haiyang Zhang, Bin Dai*, Xugen Wang, Longlong Xu, Mingyuan Zhu, Hydrochlorination of acetylene to vinyl chloride monomer over bimetallic Au-La/SAC catalysts, Journal of Industrial and Engineering Chemistry, 2012, 18 (1): 49-54. 2012-01-25. https://doi.org/10.1039/c3gc36840h (第一作者SCI收录,中科院二区,IF: 6.760,被引频次:133,他引120)

[36]   Data-Informed Discovery of High-Performance Cu-Ligand Catalysts for Acetylene Hydrochlorination, Chemical Engineering Journal, 2024.

[37]   Yawen Liu, Haiyang Zhang, Xiaoyan Li, Lingjie Wang, Yanzhao Dong, Wei Li, Jinli Zhang*, Solvent-assisted synthesis of N-doped activated carbon-based catalysts for acetylene hydrochlorination, Applied Catalysis A-General (ISSN: 0926-860X), 2021, 611, 117902. 2021-02-05. https://doi.org/10.1016/j.apcata.2020.117902 (SCIEI收录,中科院二区,IF5.723,被引频次:10,他引8)

[38]   Yawen Liu, Haiyang Zhang, Yanzhao Dong, Wei Li, Shuchun Zhao, Jinli Zhang*, Characteristics of activated carbons modulate the catalytic performance for acetylene hydrochlorination, Molecular Catalysis, 2020, 483, 110707. 2019-11-15. https://doi.org/10.1016/j.mcat.2019.110707 (SCIEI收录,中科院二区,IF: 5.089,被引频次:7,他引6)

[39]   Xiaoyan Li, Shanshan Shang, Yao Niao, Haiyang Zhang, Jinli Zhang, You Han, Wei Li*, Novel nonmetal catalyst of supported tetraphenylphosphonium bromide for acetylene hydrochlorination, Catalysis Science & Technology, 2019, 9: 188-198. 2019-01-07. https://doi.org/10.1039/c8cy02103a  (SCI收录,中科院二区,IF: 6.177,被引频次:13,他引11)

[40]   Qinqin Wang, Mingyuan Zhu, Haiyang Zhang, Caixia Xu, Bin Dai*, Jinli Zhang*, Enhanced catalytic performance of Zr-modified ZSM-5-supported Zn for the hydration of acetylene to acetaldehyde, Catalysis Communications, 2019, 120: 33-37. 2019-02-01. https://doi.org/10.1016/j.catcom.2018.07.002 SCIEI收录,中科院三区,IF: 3.510, EI20184806147400, SCIWOS: 000458222300007IDS: HK8EN),被引频次:20,他引20

[41]   Qi Song, Xingwu Zhai, Feng Yu*, Jiangbing Li, Xin Ren, Haiyang Zhang, Mingyuan Zhu, Bin Dai, Guixian Ge*, Jinli Zhang*, Defect-Rich Nickel Nanoparticles Supported on SiC Derived from Silica Fume with Enhanced Catalytic Performance for CO Methanation, Catalysts, 2019, 9, 295.  2019-03-01. https://doi.org/ 10.3390/catal9030295 (SCI收录,中科院三区,IF: 4.501,被引频次:7,他引7)

[42]   Yanzhao Dong, Wei Zhao, You Han, Jinli Zhang, Yao Nian, Haiyang Zhang and Wei Li*, Dehydrochlorination of 1, 2-dichloroethane over a tetraphenylphosphonium chloride supported carbon catalyst, New Journal of Chemistry, 2018, 42 (23): 18729-18738. 2018-12-07. https://doi.org/10.1039/c8nj02580k (SCI收录,中科院三区,IF3.925,被引频次:8,他引7)

[43]   Qinqin Wang, Mingyuan Zhu, Haiyang Zhang, Caixia Xu, Bin Dai,* and Jinli Zhang*, Highly active amino-modified MCM-41-supported zinc catalyst for acetylene hydration to acetaldehyde, ChemistrySelect, 2018, 3: 9603 –9609. 2018-09-07. https://doi.org/10.1002/slct.201801706 (SCI收录, 中科院四区, IF: 2.307,被引频次:14,他引14)

[44]   Qinqin Wang, Mingyuan Zhu, Caixia Xu, Haiyang Zhang, Xugen Wang, Bin Dai* and  Jinli Zhang*, Zn–Cu bimetallic catalysts supported on pure silica MCM-41 for acetylene hydration reaction, New Journal of Chemistry, 2018, 42: 6507-6514. 2018-04-21. https://doi.org/10.1039/c8nj00707a (SCI收录, 中科院三区, IF: 3.925,被引频次:23,他引23)

[45]   Hui Dai, Mingyuan Zhu, Haiyang Zhang, Feng Yu, ChaoWang, Bin Dai*, Activated carbon supported VN, Mo2N, and W2N as catalysts for acetylene hydrochlorination, Journal of Industrial and Engineering Chemistry, 2017, 50: 72-78. 2017-06-25. https://doi.org/10.1016/j.jiec.2017.01.031 (SCI收录, 中科院二区, IF: 6.760,被引频次:12,他引12)

[46]   Yanzhao Dong, Haiyang Zhang, Wei Li, Mengxia Sun, Cuili Guo, Jinli Zhang*, Bimetallic AuSn/AC catalysts for acetylene hydrochlorination, Journal of Industrial and Engineering Chemistry, 2016, 35: 177-184. 2016-03-25. https://doi.org/10.1016/j.jiec.2015.12.031 (SCI收录, 中科院二区, IF: 6.760,被引频次:53,他引45)

[47]   Wei Zhao, Mengxia Sun, Haiyang Zhang, Yanzhao Dong, Xiaoyan Li, Wei Li, Jinli Zhang*, Catalytic dehydrochlorination of 1,2-dichloroethane to produce vinyl chloride over N-doped coconut activated carbon, RSC Advances, 2015, 5(126): 104071-104078. 2015-12-06. https://doi.org/10.1039/c5ra20916a (SCI收录, 中科院三区, IF: 4.036,被引频次:20,他引19)

[48]   Xueqin Li, Zhongyi Jiang, Yingzhen Wu, Haiyang Zhang, Youdong Cheng, Ruili Guo, Hong Wu*, High-performance composite membranes incorporated with carboxylic acid nanogels for CO2 separation, Journal of Membrane Science, 2015, 495: 72-80. 2015-12-01. https://doi.org/10.1016/j.memsci.2015.07.065 (SCI收录, 中科院一区TOP期刊, IF: 10.53,被引频次:60,他引58)

[49]   Na Xu, Mingyuan Zhu*, Jinli Zhang*, Haiyang Zhang, Bin Dai, Nitrogen functional groups on an activated carbon surface to effect the ruthenium catalysts in acetylene hydrochlorination, RSC Advances, 2015, 5(105): 86172-86178. 2015-11-11. https://doi.org/10.1039/c5ra18851b (SCI收录, 中科院三区, IF: 4.036,被引频次:41,他引33)

[50]   Xueqin Li, Lu Ma, Haiyang Zhang, Shaofei Wang, Zhongyi Jiang, Ruili Guo, Hong Wu*, XingZhong Cao, Jing Yang, Baoyi Wang, Synergistic effect of combining carbon nanotubes and graphene oxide in mixed matrix membranes for efficient CO2 separation, Journal of Membrane Science, 2015, 479: 1-10. 2015-04-01. https://doi.org/10.1016/j.memsci.2015.01.014 (SCI收录, 中科院一区TOP期刊, IF: 10.53,被引频次:187,他引184)

[51]   Xueqin Li, Youdong Cheng, Haiyang Zhang, Shaofei Wang, Zhongyi Jiang, Ruili Guo, Hong Wu*, Efficient CO2 capture by functionalized graphene oxide nanosheets as fillers to fabricate multi-permselective mixed matrix membranes, ACS Applied Materials & Interfaces, 2015, 7(9): 5528-5537. 2015-03-11. https://doi.org/10.1021/acsami.5b00106 (SCI收录, 中科院二区TOP期刊, IF: 10.383,被引频次:269,他引266)

[52]   Guangbi Li, Wei Li, Haiyang Zhang, Yanfeng Pu, Mengxia Sun, Jinli Zhang*, Non-mercury catalytic acetylene hydrochlorination over Ru catalysts enhanced by carbon nanotubes, RSC Advances, 2015, 5(12): 9002-9008. 2015-03-04. https://doi.org/10.1039/c4ra12017e (SCI收录, 中科院三区, IF: 4.036,被引频次:46,他引40)

[53]   Weijie Han, Xugen Wang, Mingyuan Zhu, Haiyang Zhang, Kun Chen, Qinqin Wang, Xiaoyan Li, Bin Dai*, Melamine modification of spherical activated carbon and its effects on acetylene hydrochlorination, Journal of Wuhan University of Technology-Materials Science Edition, 2014, 29(6): 1147-1151. 2014-12-01. https://doi.org/10.1007/s11595-014-1057-6 (SCI收录, 中科院四区, IF: 1.271,被引频次:6,他引4)

[54]   Yanfeng Pu, Jinli Zhang, Xia Wang, Haiyang Zhang, Li Yu, Yanzhao Dong, Wei Li*, Bimetallic Au-Ni/CSs catalysts for acetylene hydrochlorination, Catalysis Science & Technology, 2014, 4(12): 4426-4432. 2014-12-10. https://doi.org/10.1039/c4cy00769g (SCI收录, 中科院二区, IF: 6.177,被引频次:57,他引47)

[55]   Baoguo Wang, Li Yu, Jinli Zhang, Yanfeng Pu, Haiyang Zhang, Wei Li*, Phosphorus-doped carbon supports enhance gold-based catalysts for acetylene hydrochlorination, RSC Advances, 2014, 4(31): 15877-15885. 2014-05-21. https://doi.org/10.1039/c4ra00478g (SCI收录, 中科院三区, IF: 4.036,被引频次:61,他引51)

[56]   Bin Dai*, Ning Ma, Haiyang Zhang, Xugen Wang, Enhanced activity of hydrochlorination of acetylene using melamine-modified activated carbon supported gold catalyst, Asian Journal of Chemistry, 2013, 25(17): 9473-9477. 2013-12-01. https://doi.org/10.14233/ajchem.2013.15028 (IF: 0.355,被引频次:2,他引1)

[57]   徐龙龙,王绪根,张海洋,代斌*,刘志勇,张清峰,一种新型炭载体在乙炔氢氯化反应中的应用,化工进展(ISSN1000-6613),2011303):536-541(EI收录,被引频次:39,他引37)

[58] Kong Aiqun#, Peng Mao#, Liu Menghui, Lv Ye, Zhang Houjun, Gao Yusheng, Liu Jing, Fu Yan*, Li Wei, Zhang Jinli*, Robust Pt/TiO2/Ni(OH)2 Nanosheet Arrays Enable Outstanding Performance for High Current Density Alkaline Water Electrolysis, Applied Catalysis B: Environmental, 2022, 316, 12165. (中科院一区, IF=24.3)

[59] Kong Aiqun#, Liu Menghui#, Zhang Houjun, Cao Zifan, Han You*, Li Wei, Zhang Jinli, Fu Yan*, Highly selective electrocatalytic hydrogenation of benzoic acid over Pt/C catalyst supported on carbon fiber, Chemical Engineering Journal, 2022, 445, 136719. (中科院一区, IF=16.7)

[60] Kong Aiqun#, Peng Mao#, Gu Hongzhi, Zhao Shuchun, Lv Ye, Liu Menghui, Sun Yawei, Dai Shengdong, Fu Yan*, Zhang Jinli, Li Wei*, Synergetic control of Ru/MXene 3D electrode with superhydrophilicity and superaerophobicity for overall water splitting, Chemical Engineering Journal, 2021, 426, 131234. (中科院一区, IF=16.7)

[61] Kong Aiqun, Ji Yanhong, Ma Huanhuan, Song Yunfei, He Benqiao*, Li Jianxin, A novel route for the removal of Cu(II) and Ni(II) ions via homogeneous adsorption by chitosan solution, Journal of Cleaner Production, 2018, 192, 801-808. (中科院一区, IF=11.0)

[62]Kong Aiqun#, Zhang Houjun#, Lv Ye, Liu Menghui, Sun Yifan, Li haojie, Wang Yifei, Fu Yan*, Li Wei, Zhang Jinli*, Surface Reconstruction Enables Outstanding Performance of Fe2O3/Ni(OH)2 Nanosheet Arrays for Ultrahigh Current Density Oxygen Evolution Reaction, Applied Surface Science, 2023, 613,156023. (中科院一区, IF=7.3)

[62] Ma Huanhuan#, Kong Aiqun#, Ji Yanhong, He Benqiao*, Song Yunfei, Li Jianxin*, Ultrahigh adsorption capacities for anionic and cationic dyes from wastewater using only chitosan, Journal of Cleaner Production, 2019, 214, 89-94. (中科院一区, IF=11.0)

[63] Junheng Guo, Yudong Liu, Guixuan Shan, Haojie L, Wei Li, Hongyun Qin, Jinke Xia, Jiangjiexing Wu* and Jinli Zhang*. The structure-effect relationship between inline high shear mixers and micromixing: Experiment and CFD simulation[J]. Chemical Engineering Science, 2023, 272: 118605.

[64] Junheng Guo, Yudong Liu, Shuchun Zhao, Haojie Li, Wei Li, Jinke Xia, Jiangjiexing* and Jinli Zhang*. Effects of stator and rotor geometry on inline high shear mixers: Residence time distribution, flow, and energy consumption[J]. Chemical Engineering Journal, 2023, 452: 139235.

[65] Xinhui Yang, Junheng Guo, Shuchun Zhao, Jinke Xia, Jinli Zhang*. High shear mixer works as a heat exchanger enhancing the liquid–liquid direct contact heat transfer[J]. International Journal of Heat and Mass Transfer, 2023, 200: 123547.

[66] Liying Chen, Junheng Guo, Wenpeng Li, Shuchun Zhao, Wei Li, Jinli Zhang*. A numerical study of mixing intensification for highly viscous fluids in multistage rotor–stator mixers[J]. Chinese Journal of Chemical Engineering, 2022, 47: 218-230.

[67] Xiuhu Dang, Junheng Guo, Lin Yang, Song Xue, Bingyan Ai, Xiaoning Li, Liying Chen, Wei Li, Hongyun Qin and Jinli Zhang*. Effects of blade structures on the dissolution and gas-liquid mass transfer performance of cup-shaped blade mixers[J]. Journal of the Taiwan Institute of Chemical Engineers, 2022, 131: 104149.

[68] Shuchun Zhao, Junheng Guo, Xiuhu Dang, Bingyan Ai, Minqing Zhang, Wei Li and Jinli Zhang*. Energy consumption, flow characteristics and energy-efficient design of cup-shape blade stirred tank reactors: Computational fluid dynamics and artificial neural network investigation[J]. Energy, 2022, 240: 122474.

[69] Yudong Liu, Junheng Guo, Wenpeng Li, Xinhui Yang, Wei Li, Mingliang Zhou* and Jinli Zhang*. Comparison and estimation on deagglomeration performance of batch high shear mixers for nanoparticle suspensions[J]. Chemical Engineering Journal, 2022, 429: 132420.

[70] Yudong Liu, Junheng Guo, Shuchun Zhao, Wenpeng Li, Haojie Li, Wei Li, Mingliang Zhou and Jinli Zhang*. Investigation and estimation on deagglomeration of nanoparticle clusters in teethed in-line high shear mixers[J]. Chemical Engineering Journal, 2021, 426: 130795.

[71] Bingyan Ai, Junheng Guo, Shuchun Zhao, Wei Li, Mingliang Zhou* and Jinli Zhang*. Liquid–liquid dispersion and selectivity of chemical reactions in the inline teethed high shear mixers[J]. Industrial & Engineering Chemistry Research, 2021, 60(11): 4498-4509.

[72] Yudong Liu, Junheng Guo, Wenpeng Li, Wei Li, Jinli Zhang*. Investigation of gas-liquid mass transfer and power consumption characteristics in jet-flow high shear mixers[J]. Chemical Engineering Journal, 2021, 411: 128580.

[73] Yudong Liu, Yixia Zhang, Junheng Guo, Wei Li, Mingliang Zhou* and Jinli Zhang*. Artificial neural network for mechanism identification and process prediction of the nanoclusters deagglomeration in the in-line HSM[J]. Chemical Engineering Journal, 2023, 454: 140526.

[74] Yudong Liu, Yixia Zhang, Junheng Guo, Wei Li, Mingliang Zhou* and Jinli Zhang*. Suspension of high concentration solids in a pilot scale jet-flow high shear mixer[J]. Chemical Engineering Journal, 2023, 451: 138567.

[75] Yudong Liu, Yixia Zhang, Junheng Guo, Wei Li, Minqing Zhang and Jinli Zhang*. Evaluation on micromixing of a continuous solid particle flow in in-line HSM by experiments and artificial intelligence approaches[J]. Industrial & Engineering Chemistry Research, 2022, 61(31): 11604-11616.

[76] Xinyi Li, Shuchun Zhao, Junheng Guo, Wei Li and Jinli Zhang*. Novel rotor-stator assembly promotes the emulsification performance in an inline high-shear mixer [J]. Industrial & Engineering Chemistry Research, 2022, 61(13): 4722-4737.

[77] Xiaoning Li, Lin Yang, Junheng Guo, Wei Li, Mingliang Zhou* and Jinli Zhang*. Micromixing performance of the teethed high shear mixer under semi-batch operation[J]. Frontiers of Chemical Science and Engineering, 2021: 1-14.

[78] Mengxiao Yu, Houjun Zhang, Junheng Guo, Jinli Zhang* and You Han*. Three-dimensional DEM simulation of polydisperse particle flow in rolling mode rotating drum[J]. Powder Technology, 2022, 396: 626-636.

[79] Fengshun Xia, Wenpeng Li*, Junheng Guo, You Han, Minqing Zhang, Baoguo Wang, Wei Li and Jinli Zhang*. Gas Absorption and Mass Transfer in a Pore-Array Intensified Tube-in-Tube Microchannel[J]. Transactions of Tianjin University, 2021, 27: 409-421.

[80] Lin Yang, Wenpeng Li, Junheng Guo, Wei Li, Baoguo Wang, Minqing Zhang and Jinli Zhang*. Effects of rotor and stator geometry on dissolution process and power consumption in jet-flow high shear mixers[J]. Frontiers of Chemical Science and Engineering, 2021, 15: 384-398.

[81] Wenpeng Li, Fengshun Xia, Shuchun Zhao, Junheng Guo, Minqing Zhang, Wei Li and Jinli Zhang*. Mixing performance of an inline high-shear mixer with a novel pore-array liquid distributor[J]. Industrial & Engineering Chemistry Research, 2019, 58(44): 20213-20225.

[82]Haojie Li, Feng Jiang*, Guopeng Qi, Pengli Zhao, Teng Jiang, Na Li, Xiaoling Chen, Xiulun Li, Effect of particle size and solid   

holdup   on heat transfer performance of a SiC/water three-phase closed thermosyphon[J], Applied Thermal Engineering, 2018, 132: 808-  

816.

[83]Haojie Li, Feng Jiang*, Guopeng Qi, Xiulun Li, Investigation of the thermal performance of a novel thermosyphon combined with 

fluidized bed heat transfer technology[J], Powder Technology, 2020, 374: 40-48.

[84]Haojie Li, Feng Jiang*, Guopeng Qi, Xiulun Li, Investigation of the heat transfer characteristics of a novel thermosyphon with 

different  particle sizes[J], Powder Technology, 2021, 384: 276-283.

[85]Haojie Li, Yuan Wang, You Han, Wenpeng Li, Lin Yang, Junheng Guo, Yudong Liu, Jinli Zhang*, Minqing Zhang, Feng Jiang*, A 

comprehensive review of heat transfer enhancement and flow characteristics in the concentric pipe heat exchanger[J], Powder Technology, 

2022, 397: 117037.

[86]Haojie Li, Yuan Wang, Wenpeng Li, Yudong Liu, Junheng Guo, Jinli Zhang*, Minqing Zhang, Feng Jiang*, Investigation of  

thermohydraulic characteristics of a novel triple concentric pipe minichannel heat exchanger[J], International Journal of Heat and Mass 

Transfer, 2022, 193: 122970.

[87] 王灵杰,郭俊恒,李文鹏,程芹,张金利。机器学习预测叶片-网孔管线式高剪切混合器性能[J].化学工业与工程, 2022, 39(02):1-8.

[88]张金利等,《高剪切混合强化技术》(国家出版基金项目),化学工业出版社,2020。

2. 专利(截止2024.03)

[1] 张金利,张海洋,张海明,李韡,董延召,用于乙炔氢氯化的Hg-La催化剂及制备方法及应用,中国发明专利号201410025801.3.(2018-11-09授权公告日)

[2] 张金利,李韡,张海洋,王霞,蒲彦锋,一种氧改性催化剂载体及制备方法与应用,中国发明专利号201310378981.9(2016-12-28授权公告日).

[3] 李韡,张金利,代斌,张海洋,蒲彦锋,于丽,王霞,戴卉,张敏卿,郭翠梨,赵伟,一种用于乙炔氢氯化的非金属催化剂及制备方法及用途,中国发明专利号:201310518594.0(2017-01-11授权公告日)

[4] 张金利,李韡,于丽,张海洋,韩优,一种磷改性催化剂载体及制备方法与应用,中国发明专利号201310381207.3(2017-03-01授权公告日)

[5] 李韡,张金利,齐雪艳,张海洋,用于乙炔氢氯化反应的掺硫非金属催化剂及制备方法及应用,2015.06.05,中国, 201510306175.X

[6] 张海洋,张金利,李星,满宝昌,张传明,代斌,一种用于乙炔氢氯化的钌配合物催化剂及其制备方法和应用,中国发明专利号ZL201711294495.3(申请日期:2017.12.08),公开号:CN108262072A(公开日期:2018.07.10,授权日期:2020.06.12)

[7] 代斌,张海洋,王绪根,魏忠,一种乙炔氢氯化合成氯乙烯的Au-Co-Cu催化剂及其制备方法,中国发明专利号201110134609.4(申请日期:2011.05.24),公开号:102794187A(公开日期:2012.11.28

[8] 代斌,张海洋,王绪根,魏忠,一种乙炔氢氯化合成氯乙烯的Au-La催化剂及其制备方法,中国发明专利号201110134607.5(申请日期:2011.05.24),公开号:102794174A(公开日期:2012.11.28

[9] 代斌,徐龙龙,王绪根,张海洋,谢东阳,一种乙炔氢氯化合成氯乙烯的Hg-Ni催化剂及其制备方法,中国发明专利号201110198849.0(申请日期:2011.07.15),公开号:102872887A(公开日期:2013.01.16

[10] 张海洋,张传明,张金利,李建,李延琴,一种用于乙炔氢氯化反应的Au杂原子配合物催化剂及其制备方法和应用,中国发明专利号201910112597.1(申请日期:2019.02.13;公开日期:2019.06.07

[11] 张海洋,李延琴,张金利,李林峰,谢东阳,李建,蔡明,代斌,一种用于催化乙炔氢氯化反应的金属配合物催化剂及其制备方法和应用,中国发明专利号ZL202010148485.4(申请日期:2020.03.05;公开日期:2020-05-29, CN 111203278 A;授权日期:2023.04.28;授权公告号:CN 111203278 B)

[12] 张海洋,李林峰,张金利,谢东阳,李延琴,李峰,张苗苗,代斌,一种用于乙炔氢氯化反应的不溶性铜络合物催化剂及其制备方法和应用,中国发明专利号ZL202110205264.0(申请日期:2021.02.24;授权日期:2023.08.01;授权公告号:CN 112961027 B)

[13] 张海洋,张苗苗,张金利,谢东阳,李峰,李建,李延琴,蔡明,李林峰,姚丽莎,代斌,一种用于催化乙炔氢氯化反应的多聚物包裹的钌基催化剂及其制备方法和应用,中国发明专利号202110333314.3(申请日期:2021.03.29

[14] 张海洋,李建,张金利,谢东阳,李林峰,蔡明,李峰,张苗苗,姚丽莎,代斌,一种用于催化乙炔氢氯化反应的金属钌单原子催化剂及其制备方法和应用,中国发明专利号ZL202110499445.9(申请日期:2021.05.06;授权日期:2022.08.09,授权公告号:CN 113171789 B)

[15] 张海洋,张苗苗,李峰,李建,李延琴,蔡明,李林峰,姚丽莎,张金利,谢东阳,代斌,一种用于催化乙炔氢氯化反应的离子液体-钌基催化剂的制备方法和应用,中国发明专利号ZL202110659773.0(申请日期:2021.06.15;公开日期:2021.10.26CN113546679A;授权日期:2023.04.28;授权公告号:CN113546679B)

[16] 张海洋,杨李洁,李林峰,亓继,谢东阳,张金利,代斌,一种Cu-MDPO/AC催化剂及其制备方法和应用,中国发明专利号ZL202210087054.0(申请日期:2022.01.25授权日期:2024.02.27;授权公告号:CN 114768883 B)

[17] ZHANG Haiyang, LI Yanqin, ZHANG Jinli, LI Linfeng, XIE Dongyang, LI Jian, CAI Ming, DAI Bin, METAL COMPLEX CATALYST FOR CATALYZING HYDROCHLORINATION OF ACETYLENE, PREPARATION METHOD AND APPLICATION THEREOF, SOUTH AFRICA PATENT, B01J, APPLICATION No. 2022/03700 (申请日期:2022-03-31;授权日期:2022.06.29).

[18] 张海洋,亓继,黄明慧,杨李洁,张前刚,李林峰,郭子瀚,康华强,谢东阳,张金利,代斌,一种用于催化乙炔氢氯化反应的配体-铜基催化剂及其制备方法和应用,中国发明专利号202211663119.8(申请日期:2022.12.18

[19] 张海洋,黄明慧,张金利,曾娟,亓继,张前刚,杨李洁,郭子瀚,一种Ni-NiO/Fe(OH)3/CC双功能催化剂及其制备方法与应用,中国发明专利号2023100526868(申请日期:2023.02.02

[20] 张海洋,张前刚,许越,黄明慧,亓继,李建,张金利,代斌,一种用于催化乙炔氢氯化反应的铂-离子液体配合物催化剂及其制备方法和应用,中国发明专利号202310192763.X(申请日期:2023.03.02

[21] 张海洋,郭子瀚,张金利,董延召,谢东阳,李建,李峰,张前刚,亓继,杨李洁,代斌,一种用于催化乙炔氢氯化反应的花状非金属催化剂及其制备方法和应用,国家专利申请号:202310222831.2 (申请日期:2023.03.08

[22] 张建树,籍煜雯,张金利,郭瑞丽,张海洋,一种氯化亚铜催化剂的预处理方法,中国发明专利号ZL202210053170.0(申请日期:2022.01.18,授权日期:2023.09.12)

[23] 张海洋,李建,徐永胜,姚丽莎,董延召,谢东阳,张金利,代斌,一种用于催化乙炔氢氯化反应的金催化剂及其制备方法和应用,中国发明专利号202311619646.3 申请日期:2023.11.30贵研工业催化剂(云南)有限公司为共同专利权人

[24] 徐永胜,李建,张海洋,张金利,董延召,谢东阳,代斌,一种用于乙炔氢氯化反应的金-多聚物催化剂及其制备方法和应用,中国发明专利号202311674046.7(申请日期:2023.12.07贵研工业催化剂(云南)有限公司为共同专利权人

[25] 朱明远,卢雨生,张海洋,代斌,一种用于乙炔氢氯化反应的非金属催化剂及其制备方法,中国发明专利号CN112844433B(申请日期:2021.01.14;授权日期:2023.04.14

[26] 张金利,彭茂,李韡,张建树,张海洋,一种含氯缺陷的氯化铜催化剂及制备方法和应用,中国发明专利号CN112138688B(申请日期:2020.11.02;授权日期:2023.01.17

[27]张海洋,曾娟,孔爱群,张金利,董延召,靳雯清,一种含氮分子调控Ru/RuO2异质催化剂及其制备方法与应用中国发明专利号202311863868X(申请日期:2023.12.28

[28] 李韡,张金利,郭俊恒,赵术春,李豪杰,刘玉东,杨琳,一种初乳化单元、高粘度物料连续精细乳化装置及其乳化方法,CN202011312008.3(发明专利)。

[29] 张金利,李豪杰,李韡,刘玉东,郭俊恒,彭茂。一种采用气固并流下行床反应器的多晶硅冷氢化方法,CN202011278241.4(发明专利)。

[30] 张金利,郭俊恒,张鹏,李韡,周鸣亮,李潇宁,李文鹏,刘正洲,一种全混流高剪切混合器,CN202020562964.6(实用新型专利)

[32] 张金利,李文鹏,陈丽颖,郭俊恒,张敏卿,李韡,周鸣亮,一种高粘度物料快速混合装置,CN202020377145.4(实用新型专利)

[33] 张金利,李心怡,郭俊恒,赵术春,一种连续式高剪切混合器,CN202210832383.3(发明专利)。