2015年12月博士毕业于江苏大学环境工程专业

副研究员，硕士生导师。2015年12月博士毕业于江苏大学环境工程专业，同年入职于江苏大学 2019年8月赴美国，在任职于美国橡树岭国家重点实验室和美国田纳西大学的戴胜（Sheng Dai）教授课题组进修学习

目前，主持在研国家级和省部级各类项目共3项、市级重点研发计划1项；主持结题省部级项目3项、技术服务项目1项、与企业合作研发横向课题1项。

到目前为止，在Applied Catalysis B: Environmental、Journal of Materials Chemistry A、Chemical Engineering Journal、Catalysis Science & Technology、Chemistry - A European Journal等国际期刊上共发表SCI论文60余篇（h-index：25），其中第一作者和通讯作者的SCI论文近30篇（前0.1%的ESI热点论文1篇，前1%的ESI高被引论文3篇） 部分代表性论文如下（通讯作者及排名前三作者）： [1] Ziyang Lu*, Guosheng Zhou, Minshan Song, Xinlin Liu, Hua Tang, Hongjun Dong, Pengwei Huo, Feng Yan, Peng Du, Guozhong Xing. Development of magnetic imprinted PEDOT/CdS heterojunction photocatalytic nanoreactors: 3-Dimensional specific recognition for selectively photocatalyzing danofloxacin mesylate. Applied Catalysis B: Environmental, 2019, DOI: 10.1016/j.apcatb.2019.118433. （IF=14.229）（通讯作者） [2] Ziyang Lu*, Guosheng Zhou, Minshan Song, Dandan Wang, Pengwei Huo, Weiqiang Fan, Hongjun Dong, Hua Tang, Feng Yan, Guozhong Xing. Magnetic Functional Heterojunction Reactors with 3D Specific Recognition: Towards Selective Photocatalysis and Synergistic Photodegradation in Binary Antibiotic Solution. Journal of Materials Chemistry A, 2019, 7, 13986–14000.（IF=10.733）（通讯作者） [3] Ziyang Lu*, Jiayi Peng, Minshan Song, Yang Liu, Xinlin Liu, Pengwei Huo, Hongjun Dong, Shouqi Yuan, Zhongfei Ma, Song Han. Improved recyclability and selectivity of environment-friendly MFA-based heterojunction imprinted photocatalyst for secondary pollution free tetracycline orientation degradation. Chemical Engineering Journal, 2019, 360, 1262–1276.（IF=8.355）（通讯作者）（ESI高被引论文） [4] Fan He, Ziyang Lu*, Minshan Song, Xinlin Liu, Hua Tang, Pengwei Huo, Weiqiang Fan, Hongjun Dong, Xiangyang Wu, Song Han. Selective reduction of Cu2+ with simultaneous degradation of tetracycline by the dual channels ion imprinted POPD-CoFe2O4 heterojunction photocatalyst. Chemical Engineering Journal, 2019, 360, 750–761.（IF=8.355）（通讯作者） [5] Fan He, Ziyang Lu*, Minshan Song, Xinlin Liu, Hua Tang, Pengwei Huo, Weiqiang Fan, Hongjun Dong, Xiangyang Wu, Guoliang Xing. Construction of ion imprinted layer modified ZnFe2O4 for selective Cr(VI) reduction with simultaneous organic pollutants degradation based on different reaction channels. Applied Surface Science, 2019, 483, 453–462.（IF=5.155）（通讯作者） [6] Ziyang Lu, Fan He, Cheng Yu Hsieh, Xiangyang Wu, Minshan Song, Xinlin Liu, Yang Liu, Shouqi Yuan, Hongjun Dong, Song Han, Peng Du, Guozhong Xing. Magnetic Hierarchical Photocatalytic Nanoreactors: Toward Highly Selective Cd2+ Removal with Secondary Pollution Free Tetracycline Degradation. ACS Applied Nano Materials, 2019, 2, 1664−1674. [7] Jiayi Peng, Ziyang Lu*, Jing Lu, Zhongfei Ma, Minshan Song, Xinlin Liu, Pengwei Huo, Hongjun Dong, Xuchun Qiu, Song Han. Enhanced selectivity for photodegrading ciprofloxacin by a magnetic photocatalyst modified with a POPD–CdS heterojunction embedded imprinted layer. New Journal of Chemistry, 2019, 43, 2610–2623.（IF=3.069）（通讯作者） [8] Xu Tang, Yang Yu, Changchang Ma, Guosheng Zhou, Xinlin Liu, Minshan Song, Ziyang Lu*, Lei Liu. The fabrication of a biomass carbon quantum dot-Bi2WO6 hybrid photocatalyst with high performance for antibiotic degradation. New Journal of Chemistry, 2019, 43, 18860–18867. （IF=3.069）（通讯作者） [9] Guosheng Zhou, Ziyang Lu*, Xinlin Liu, Minshan Song, Guoliang Xing, Xiaodie Zhu, Zehui Yu, Lingyan Xu, Pengwei Huo, Yongsheng Yan. A novel resource utilization type 3-dimensional flower spheroidal Fe3O4@C@(BiO)2CO3: High-efficiency degradation of tetracycline under visible light. Inorganic Chemistry Communications, 2020, 111, 107630. （IF=1.795）（通讯作者） [10] Ziyang Lu, Zehui Yu, Minshan Song, Xinlin Liu, Yang Liu, Yongsheng Yan, Pengwei Huo, Hongjun Dong, Fei Chen, Song Han. Enhanced Selectivity for Oriented Catalyzing Tetracycline by the Functional Inorganic Imprinted ZnFe2O4@Ag3PO4/SiO2 Photocatalyst with Excellent Stability. Nano, 2019, 14, 1950004.（IF=1.293） [11] Ziyang Lu, Zehui Yu, Jinbo Dong, Minshan Song, Yang Liu, Xinlin Liu, Zhongfei Ma, Hang Su, Yongsheng Yan, Pengwei Huo. Facile microwave synthesis of a Z-scheme imprinted ZnFe2O4/Ag/PEDOT with the specific recognition ability towards improving photocatalytic activity and selectivity for tetracycline. Chemical Engineering Journal, 2018, 337, 228–241.（IF=8.355）（ESI热点论文）（ESI高被引论文） [12] Ziyang Lu, Zehui Yu, Jinbo Dong, Xinyu Xiong, Lin Gao, Minshan Song, Yang Liu, Di Fan, Yongsheng Yan, Pengwei Huo. Enhanced Photocatalytic Activity and Selectivity of a Novel Magnetic PW@PEDOT Imprinted Photocatalyst with Good Reproducibility. Nano, 2018, 13, 1850020.（IF=1.293） [13] Ziyang Lu, Zehui Yu, Jinbo Dong, Minshan Song, Yang Liu, Xinlin Liu, Di Fan, Zhongfei Ma, Yongsheng Yan, Pengwei Huo. Construction of stable core–shell imprinted Ag-(poly-o-phenylenediamine)/CoFe2O4 photocatalyst endowed with the specific recognition capability for selective photodegradation of ciprofloxacin. RSC Advances, 2017, 7, 48894–48903.（IF=3.049） [14] Ziyang Lu, Xiaoxu Zhao, Zhi Zhu, Minshan Song, Nailing Gao, Youshan Wang, Zhongfei Ma, Weidong Shi, Yongsheng Yan, Hongjun Dong. A novel hollow capsule−like recyclable functional ZnO/C/Fe3O4 endowed with three−dimensional oriented recognition ability for selectively photodegrading danofloxacin mesylate. Catalysis Science & Technology, 2016, 6, 6513–6524.（IF=5.726） [15] Ziyang Lu, Zhi Zhu, Dandan Wang, Zhongfei Ma, Weidong Shi, Yongsheng Yan, Xiaoxu Zhao, Hongjun Dong, Li Yang, Zhoufa Hua. Specific oriented recognition of a new stable ICTX@Mfa with retrievability for selectively photocatalytic degrading ciprofloxacin. Catalysis Science & Technology, 2016, 6, 1367–1377.（IF=5.726） [16] Nailing Gao, Ziyang Lu*, Xiaoxu Zhao, Zhi Zhu, Youshan Wang, Dandan Wang, Zhoufa Hua, Chunxiang Li, Pengwei Huo, Minshan Song. Enhanced photocatalytic activity of a double conductive C/Fe3O4/Bi2O3 composite photocatalyst based on biomass. Chemical Engineering Journal, 2016, 304, 351–361.（IF=8.355）（通讯作者） [17] Youshan Wang, Ziyang Lu*, Zhi Zhu, Xiaoxu Zhao, Nailing Gao, Dandan Wang, Zhoufa Hua, Yongsheng Yan, Pengwei Huo, Minshan Song. Enhanced selective photocatalytic properties of a novel magnetic retrievable imprinted ZnFe2O4/PPy composite with specific recognition ability. RSC Advances, 2016, 6, 51877–51887.（IF=3.049）（通讯作者） [18] Xiaoxu Zhao, Ziyang Lu*, Jinyan Kan, Chengwu Yi, Nailing Gao, Zhi Zhu, Minshan Song, Yongsheng Yan, Yang Wang, Tong Zhang. Synthesis of stable core–shell structured TiO2@Fe3O4 based on carbon derived from yeast with an enhanced photocatalytic ability. RSC Advances, 2016, 6, 46889–46899.（IF=3.049）（通讯作者） [19] Zhi Zhu, Xu Tang, Su Kang, Pengwei Huo, Minshan Song, Weidong Shi, Ziyang Lu*, Yongsheng Yan. Constructing of the Magnetic Photocatalytic Nanoreactor MS@FCN for Cascade Catalytic Degrading of Tetracycline. The Journal of Physical Chemistry C, 2016, 120, 27250–27258.（IF=4.309）（通讯作者） [20] Zhi Zhu, Xu Tang, Changchang Ma, Minshan Song, Nailing Gao, Youshan Wang, Pengwei Huo, Ziyang Lu*, Yongsheng Yan. Fabrication of conductive and high-dispersed Ppy@Ag/g-C3N4 composite photocatalysts for removing various pollutants in water. Applied Surface Science, 2016, 387, 366–374.（IF=5.155）（通讯作者） [21] Ziyang Lu, Xiaoxu Zhao, Zhi Zhu, Yongsheng Yan, Weidong Shi, Hongjun Dong, Zhongfei Ma, Nailing Gao, Youshan Wang, Hai Huang. Enhanced recyclability, stability and selectivity of CdS/C@Fe3O4 nanoreactor for orientation photodegradation of ciprofloxacin. Chemistry - A European Journal, 2015, 21, 18528–18533.（IF=5.160）（Hot paper，Frontispieces） [22] Ziyang Lu, Ming He, Lili Yang, Zhongfei Ma, Li Yang, Dandan Wang, Yongsheng Yan, Weidong Shi, Yang Liu, Zhoufa Hua. Selective photodegradation of 2-mercaptobenzothiazole by a novel imprinted CoFe2O4/MWCNTs photocatalyst. RSC Advances, 2015, 5, 47820–47829.（IF=3.049） [23] Ziyang Lu, Fei Chen, Ming He, Minshan Song, Zhongfei Ma, Weidong Shi, Yongsheng Yan, Jinze Lan, Fang Li, Peng Xiao. Microwave synthesis of a novel magnetic imprinted TiO2 photocatalyst with excellent transparency for selective photodegradation of enrofloxacin hydrochloride residues solution. Chemical Engineering Journal, 2014, 249, 15–26.（IF=8.355）（ESI高被引论文） [24] Ziyang Lu, Weichao Zhou, Pengwei Huo, Yingying Luo, Ming He, Jianming Pan, Chunxiang Li, Yongsheng Yan. Performance of a novel TiO2 photocatalyst based on the magnetic floating fly-ash cenospheres for the purpose of treating waste by waste. Chemical Engineering Journal, 2013, 225, 34–42.（IF=8.355） [25] Ziyang Lu, Pengwei Huo, Yingying Luo, Xiaolin Liu, Di Wu, Xun Gao, Chunxiang Li, Yongsheng Yan. Performance of molecularly imprinted photocatalysts based on fly-ash cenospheres for selective photodegradation of single and ternary antibiotics solution. Journal of Molecular Catalysis A: Chemical, 2013, 378, 91–98.（IF=5.008） [26] Ziyang Lu, Yingying Luo, Ming He, Pengwei Huo, Tingting Chen, Weidong Shi, Yongsheng Yan, Jianming Pan, Zhongfei Ma, Siyu Yang. Preparation and performance of a novel magnetic conductive imprinted photocatalyst for selective photodegradation of antibiotic solution. RSC Advances, 2013, 3, 18373–18382.（IF=3.049） [27] X.X. Zhao, Z.Y. Lu, M.B. Wei, M.H. Zhang, H.J. Dong, C.W. Yi, R. Ji, Y.S. Yan. Synergetic effect of carbon sphere derived from yeast with magnetism and cobalt oxide nanochains towards improving photodegradation activity for various pollutants. Applied Catalysis B: Environmental, 2018, 220, 137–147.（ESI高被引论文） [28] Xiaoxu Zhao, Ziyang Lu, Rong Ji, Menghan Zhang, Chengwu Yi, Yongsheng Yan. Biomass carbon modified Z-scheme g-C3N4/Co3O4 heterojunction with enhanced visible-light photocatalytic activity. Catalysis Communications, 2018, 112, 49–52. [29] Xiaoxu Zhao, Ziyang Lu, Wei Ma, Menghan Zhang, Rong Ji, Chengwu Yi, Yongsheng Yan. One-step fabrication of carbon decorated Co3O4/BiVO4 p-n heterostructure for enhanced visible-light photocatalytic properties. Chemical Physics Letters, 2018, 706, 440–447. [30] Z. Zhu, Z.Y. Lu, D.D. Wang, X. Tang, Y.S. Yan, W.D. Shi, Y.S. Wang, N.L. Gao, X. Yao, H.J. Dong. Construction of high-dispersed Ag/Fe3O4/g-C3N4 photocatalyst by selective photo-deposition and improved photocatalytic activity. Applied Catalysis B: Environmental, 2016, 182, 115–122. （ESI高被引论文） [31] Y.Y. Luo, Z.Y. Lu, Y.H. Jiang, D.D. Wang, L.L. Yang, P.W. Huo, Z.L. Da, X.L. Bai, X.L. Xie, P.Y. Yang. Selective photodegradation of 1-methylimidazole-2-thiol by the magnetic and dual conductive imprinted photocatalysts based on TiO2/Fe3O4/MWCNTs. Chemical Engineering Journal, 2014, 240, 244–252. [32] P.W. Huo, Z.Y. Lu, X.L. Liu, D. Wu, X.L. Liu, J.M. Pan, X. Gao, W.L. Guo, H.M. Li, Y.S. Yan. Preparation photocatalyst of selected photodegradation antibiotics by molecular imprinting technology onto TiO2/fly-ash cenospheres. Chemical Engineering Journal, 2012, 189–190, 75–83. [33] P.W. Huo, Z.Y. Lu, X.L. Liu, X.L. Liu, X. Gao, J.M. Pan, D. Wu, J. Ying, H.M. Li, Y.S. Yan. Preparation molecular/ions imprinted photocatalysts of La3+@POPD/TiO2/fly-ash cenospheres: Preferential photodegradation of TCs antibiotics. Chemical Engineering Journal, 2012, 198–199, 73–80. [34] P.W. Huo, Z.Y. Lu, H.Q. Wang, J.M. Pan, H.M. Li, X.Y. Wu, W.H. Huang, Y.S. Yan. Enhanced photodegradation of antibiotics solution under visible light with Fe2+/Fe3+ immobilized on TiO2/fly-ash cenospheres by using ions imprinting technology. Chemical Engineering Journal, 2011, 172, 615–622. [35] Z. Zhu, Z.Y. Lu, X.X. Zhao, Y.S. Yan, W.D. Shi, D.D. Wang, L.L. Yang, X. Lin, Z.F. Hua, Y. Liu. Surface imprinting of a g-C3N4 photocatalyst for enhanced photocatalytic activity and selectivity towards photodegradation of 2-mercaptobenzothiazole. RSC Advances, 2015, 5, 40726–40736. [36] M. He, Z.Y. Lu, W.C. Zhou, T.T. Chen, W.D. Shi, G.B. Che, P.W. Huo, Z. Zhu, X.X. Zhao, Y.S. Yan. A novel CdS photocatalyst based on magnetic fly ash cenospheres as the carrier: Performance and mechanism. RSC Advances, 2014, 4, 60148–60157. [37] X.N. Yu, Z.Y. Lu, N.C. Si, W.C. Zhou, T.T. Chen, X. Gao, M.S. Song, Y.S. Yan, P.W. Huo, C.Y. Yan. Preparation of rare earth metal ion/TiO2Hal-conducting polymers by ions imprinting technique and its photodegradation property on tetracycline. Applied Clay Science, 2014, 99, 125–130. [38] W.C. Zhou, Z.Y. Lu, J.Z. Lan, N.C. Si, M. He, T.T. Chen, J.Q. Li, F. Li, P. Xiao, D.D. Wang, Y.S. Yan, C.Y. Yan. Preparation and Performance of a novel magnetic imprinted TiO2 photocatalyst. Nanoscience and Nanotechnology Letters, 2015, 7, 679–684. [39] T.T. Chen, Z.Y. Lu, L.L. Yang, Z.F. Ma, M. He, W.C. Zhou, J.Q. Li, X.X. Zhao, Z. Zhu, D.D. Wang, P.W. Huo, Y.S. Yan. Imprinted ZnO/Magnetic Fly-Ash Photocatalyst Selectively Photodegraded Danofloxacin Mesylate Solution. Nanoscience and Nanotechnology Letters, 2015, 7, 441–445. [40] X.N. Yu, Z.Y. Lu, D. Wu, P. Yu, M. He, T.T. Chen, W.D. Shi, P.W. Huo, Y.S. Yan, Y.X. Feng. Heteropolyacid–chitosan/TiO2 composites for the degradation of tetracycline hydrochloride Solution. Reaction Kinetics, Mechanisms and Catalysis, 2014, 111, 347–360. [41] X.X. Zhao, Z.Y. Lu, X.L. Bai, Y.S. Yan, L.L. Yang, Z.F. Hua, Y. Liu, D.D. Wang, X.L. Xie, P.Y. Yang. Influence of inorganic ions and pH on the photodegradation of ciprofloxacin with ZnO photocatalyst based on the magnetic ZnFe2O4. Fresenius Environmental Bulletin, 2015, 24, 3092–3099. [42] Z. Zhu, P.W. Huo, Z.Y. Lu, Y.S. Yan, Z. Liu, W.D. Shi, C.X. Li, H.J. Dong. Fabrication of magnetically recoverable photocatalysts using g-C3N4 for effective separation of charge carriers through like-Z-scheme mechanism with Fe3O4 mediator. Chemical Engineering Journal, 2018, 331, 615–625.（ESI高被引论文） [43] J. Cao, H.F. Niu, Z.Y. Lu, P.W. Huo, Y.S. Yan. Green synthesis of highly luminescent ZnS:Mn2+ quantum dots. Journal of Materials Science-Materials in Electronics, 2016, 27, 6175–6178. [44] Y.H Jiang, Y.Y. Luo, Z.Y. Lu, P.W. Huo, W.N. Xing, M. He, J.Q. Li, Y.S. Yan, Influence of Inorganic Ions and pH on the Photodegradation of 1-Methylimidazole-2-thiol with TiO2 Photocatalyst Based on Magnetic Multi-walled Carbon Nanotubes, Bulletin of the Korean Chemical Society, 2014, 35, 76–82. [45] P.W. Huo, X. Gao, Z.Y. Lu, X.L. Liu, Y.Y. Luo, W.N. Xing, J.Q. Li, Y.S. Yan. Photocatalytic degradation of antibiotics in water using metal ion@TiO2/HNTs under visible light. Desalination and Water Treatment, 2014, 52, 6985–6995. [46] W.L. Zhang, J.Q. Li, Z.Y. Lu, Y.Y. Luo, F. Chen, P.W. Huo, J.M. Pan, Y.S. Yan. Performance of removal of salicylic acid residues from aqueous solution based on the magnetic TiO2 nanocomposites. Desalination and Water Treatment, 2014, 52, 6598–6610. [47] X.N. Yu, X. Gao, Z.Y. Lu, X.L. Liu, P.W. Huo, X.L. Liu, D. Wu, Y.S. Yan. Preparation and photodegradation properties of transition metal ion–poly-o-phenylenediamine/TiO2/fly-ash cenospheres by ion imprinting technology. RSC Advances, 2013, 3, 14807–14813. [48] D. Wu, P.W. Huo, Z.Y. Lu, X. Gao, X.L. Liu, W.D. Shi, Y.S. Yan. Preparation of heteropolyacid/TiO2/fly-ash-cenosphere photocatalyst for the degradation of ciprofloxacin from aqueous solutions. Applied Surface Science, 2012, 258, 7008–7015. [49] Z.L. Da, P.W. Huo, Z.Y. Lu, Y.S. Yan, S.T. Li, H.M. Li, X.Y. Wu, W.H. Huang. Preparation Photocatalyst of MoO3/TiO2 films Loaded onto Fly-ash cenospheres and Its Photocatalytic Discolorization of Methylene Blue Solution Under Visible Light. Fresenius environmental bulletin, 2011, 20, 2179–2186.

以第一发明人受理国家发明专利23项，其中授权国家发明专利8项；参编专著1部 部分发明专利如下（排名前三）： [1] 逯子扬，朱晓蝶，高乃玲，宋旼珊，赵晓旭，朱志，王友山，闫永胜。一种类Z型异质结的Ag-PANI嵌入型印迹CdS/Fe3O4/C及其制备方法。2018.12.14，中国，ZL201610738376.1。（已授权） [2] 逯子扬，赵晓旭，闫永胜，宋旼珊，马中飞，朱志，高乃玲。具有专一定向能力的磁性P3HT/TNT异质结光催化剂及其制备方法。2018.02.27，中国，ZL201510712027.8。（已授权） [3] 逯子扬，朱志，闫永胜，宋旼珊，马中飞，赵晓旭，王友山。一种智能定向型CdS/MFAC复合光催化剂及其制备方法。2018.02.27，中国，ZL201510710767.8。（已授权） [4] 逯子扬，姚鑫，闫永胜，宋旼珊，朱志，王友山，马中飞。一种专一识别的SiO2/Ag3PO4@ZnFe2O4无机印迹复合光催化剂及其制备方法。2017.12.05，中国，ZL201510714311.9。（已授权） [5] 逯子扬，陈斐，陈婷婷，宋旼珊，罗莹莹，闫永胜，马中飞，霍鹏伟。基于磁性碳质材料的表面印迹CdS复合光催化剂的制备方法。2016.04.06，中国，ZL201410016720.7。（已授权） [6] 逯子扬，罗莹莹，杨丽丽，蒋银花，霍鹏伟，邢伟男，王丹丹，闫永胜。一种钴铁氧体导电印迹复合光催化剂的制备方法。2016.01.20，中国，ZL201410006613.6。（已授权） [7] 逯子扬，闫永胜，霍鹏伟，潘建明，罗莹莹，李继琴，马中飞。具有良好光透过性的磁性印迹复合光催化剂的制备方法。2015.06.10，中国，ZL201310113117.6。（已授权） [8] 逯子扬，闫永胜，马中飞，霍鹏伟，赫明，罗莹莹，刘馨琳。光降解盐酸恩诺沙星漂浮型磁性导电表面分子印迹复合光催化剂的制备方法及其应用。2014.10.29，中国，ZL201210500672.X。（已授权） [9] 逯子扬，朱晓蝶，储金宇，刘馨琳，宋旼珊，周国生，于泽惠，颜欢。一种环境响应型PNIPAM/Bi2O3的制备方法及其应用。2019.11.19，中国，201911131201.4。 [10] 逯子扬，何凡，于泽惠，宋旼珊，周国生，朱晓蝶，李武举，刘馨琳。一种双反应通道光催化剂的制备方法及其应用。2018.12.12，中国，201811515378.X。 [11] 逯子扬，彭嘉艺，宋旼珊，马中飞，刘馨琳，何凡，于泽惠，朱晓蝶。一种POPD-CdS异质结嵌入型磁性印迹光催化纳米反应器的制备及其应用。2018.09.28，中国，201811140550.8。 [12] 逯子扬，彭嘉艺，马中飞，董进波，宋旼珊，何凡，刘馨琳，于泽惠。一种选择性降解四环素的磁性光催化纳米反应器的制备方法及其应用。2018.08.14，中国，201810922648.2。 [13] 逯子扬，何凡，宋旼珊，吴向阳，刘馨琳，彭嘉艺，于泽惠，周国生。一种Z型磁性离子印迹光催化剂的制备方法及其应用。2018.07.26，中国，201810831102.6。 [14] 逯子扬，韩梅，董进波，宋旼珊，何凡，彭嘉艺，于泽惠，刘馨琳。一种印迹SiW@PANI@Fe3O4@C的制备方法及应用。2018.07.25，中国，201810826602.0。 [15] 逯子扬，何凡，吴向阳，宋旼珊，彭嘉艺，刘馨琳，于泽惠，朱晓蝶。一种磁性分级多孔Cd2+印迹光催化纳米反应器的制备方法及其应用。2018.06.13，中国，201810609713.6。 [16] 逯子扬，朱晓蝶，储金宇，宋旼珊，何凡，彭嘉艺，于泽惠，吴向阳。一种导电印迹Ag@PANI/CoFe2O4/C的制备方法及其应用。2018.05.07，中国，201810428360.X。 [17] 逯子扬，朱志，王友山，宋旼珊，赵晓旭，高乃玲，闫永胜，霍鹏伟。一种高光催化活性和选择性的PEDOT/CdS/Fe3O4/HNT印迹光催化剂及其制备方法。2016.08.26，中国，201610737432.X。 [18] 逯子扬，郭强，王友山，宋旼珊，朱志，赵晓旭，高乃玲，闫永胜。一种Ag-POPD嵌入型磁性印迹光催化剂及其制备方法。2016.08.26，中国，201610738377.6。 [19] 逯子扬，王友山，朱志，宋旼珊，赵晓旭，高乃玲，闫永胜，霍鹏伟。一种嵌入式中空磁性印迹光催化纳米反应器及其制备方法。2016.08.26，中国，201610753333.0。 [20] 逯子扬，康溯，朱志，宋旼珊，赵晓旭，王友山，高乃玲，闫永胜。一种印迹ZnO磁性复合光催化纳米反应器及其制备方法。2016.07.28，中国，201610607378.7。 [21] 逯子扬，高乃玲，赵晓旭，宋旼珊，朱志，王友山，闫永胜，霍鹏伟。一种具有定向识别能力的黑色TiO2复合磁性粉煤灰及其制备方法。2016.07.28，中国，201610607433.2。 [22] 逯子扬，赵晓旭，高乃玲，宋旼珊，朱志，王友山，闫永胜，霍鹏伟。一种三维专一识别的POPD/TiO2/SiO2@Fe3O4/FAC印迹纳米反应器及其制备方法。2016.07.28，中国，201610607379.1。 [23] 逯子扬，黄海，闫永胜，宋旼珊，赵晓旭，高乃玲，马中飞。一种SnO2/Ag3PO4复合光催化剂的制备方法及用途。2015.10.28，中国，201510718937.7。 [24] 高乃玲，逯子扬，李春香，朱志，王友山，赵晓旭，霍鹏伟，刘馨琳。一种基于生物质多孔碳的C@Fe3O4@Bi复合光催化剂的制备方法及用途。2018.12.14，中国，ZL201610622043.2。（已授权） [25] 高乃玲，逯子扬，赵晓旭，王友山，李春香，霍鹏伟。一种三元复合光催化材料及其制备方法和用途。2018.11.06，中国，ZL201610405843.9。（已授权） [26] 高乃玲，逯子扬，李春香，赵晓旭，朱志，王友山，霍鹏伟。一种具有双导电性C/Fe3O4/Bi2O3复合光催化剂的制备方法及用途。2018.06.26，中国，ZL201610146101.9。（已授权） [27] 王友山，逯子扬，闫永胜，朱志，赵晓旭，高乃玲，霍鹏伟。一种选择性专一识别的PPy@ZnFe2O4磁性印迹复合光催化剂的制备方法。2018.06.01，中国，ZL201610151636.5。（已授权） [28] 赵晓旭，逯子扬，闫永胜，依成武，朱志，高乃玲，王友山。一种磁性TiO2/Fe3O4/C复合光催化剂及其制备方法和应用。2018.04.03，中国，ZL201510784081.3。（已授权） [29] 朱志，逯子扬，闫永胜，霍鹏伟，高乃玲，王友山，姚鑫，黄海。一种复合光催化材料及其制备方法和用途。2018.01.16，中国，ZL201510476768.0。（已授权） [30] 赵晓旭，逯子扬，闫永胜，依成武。一种磁性ZnO@ZnFe2O4复合光催化剂及其制备方法和应用。2016.01，中国，201510729133.7。 [31] 朱志，逯子扬，闫永胜，赫明，霍鹏伟，王友山，高乃玲，赵晓旭。一种表面分子印迹复合光催化材料及其制备方法和用途。2015.11，中国，201510293124.8。 [32] 李春香，逯子扬，霍鹏伟，刘小林，吴迪，高旬，闫永胜。一种表面分子印迹复合光催化剂的制备方法。2012.07，中国，201210034276.2。 [33] 赵晓旭，依成武，逯子扬，闫永胜，高乃玲，王友山。一种磁性Fe3O4@C/Co3O4复合光催化剂的制备方法及用途。2018.10.09，中国，ZL201610709630.5。（已授权） [34] 赵晓旭，季蓉，逯子扬，王润，闫永胜，依成武，王锐娟，呼娇娇。一种基于磁性碳质材料负载介孔TiO2复合光催化剂的制备方法及其用途。2016.07，中国，201610525301.5。 [35] 霍鹏伟，罗莹莹，逯子扬，蒋银花，邢伟男，赫明，李继琴，周卫超。一种双导电磁性印迹光催化剂的制备方法。2016.04.06，中国，ZL201310705546.2。（已授权） [36] 蒋银花，罗莹莹，逯子扬，霍鹏伟，邢伟男，冯禹翔，杨思宇。一种基于碳质材料的磁性复合光催化剂的制备方法。2015.11.18，中国，ZL201310293513.1。（已授权） [37] 赫明，闫永胜，逯子扬，霍鹏伟。一种ZnFe2O4/Ag3PO4复合光催化剂的制备方法。2016.06.15，中国，ZL201410628070.1。（已授权） [38] 赫明，闫永胜，逯子扬，霍鹏伟。一种可磁分离光催化剂的制备方法。2017.01.04，中国，ZL201410271745.1。（已授权） [39] 霍鹏伟，闫永胜，逯子扬，刘馨琳，高旬，吴迪，刘小林，李华明，吴向阳。一种选择性降解的分子印迹修饰复合光催化剂制备方法。2013.06，中国，ZL201110197608.4。（已授权）