夏盛杰科研成果

个人简介 夏盛杰，男，浙江富阳人，浙江工业大学化学工程学院化学学科教授，博士生导师。（1）教育经历2001.9-2005.7 天津城建大学（原天津城市建设学院）材料科学系 本科2005.9-2008.7 浙江工业大学化学工程学院 硕士2008.9-2012.9 浙江大学高分子系 博士（2）工作经历2012.9-2014.9 浙江工业大学化学工程学院 博士后2014.9-2017.12 浙江工业大学化学工程学院 讲师2017.9-2018.9 美国伊利诺伊大学香槟分校化学系 访问学者2017.12-2023.12 浙江工业大学化学工程学院 副教授2024.01-至今 浙江工业大学化学工程学院 教授（3）教学科研及人才培养经历1）教学经历：主讲课程：大学化学基础、无机化学、无机化学（留学生）、基础化学实验；主持1项国家级教学建设子项目、1项省级教改项目和多项校级教改/教学建设项目，是2门省级一流课程负责人并获1项省教学评比一等奖。2）科研经历：主要的方向为实验及理论计算研究层状纳米材料及其复合物的构筑及在环境光催化方面的应用。当2013年至今，一作或通讯在化学相关领域已发表SCI论文79篇（3篇热点，11篇高被引），其中中科院一区论文25篇，被引用次数总和近4000次；另主持2项国家级、2项省部级科研项目和3项企业研发项目。3）人才培养：累计培养博士生1人，硕士生10人；当前指导硕士生10人。2015年独立指导研究生至今（首届2018年毕业），已毕业研究生中获省级优秀硕士学位论文1人，校级优秀硕士学位论文7人，省优秀毕业生11人，获国家奖学金16人次。 教学与课程 （1）主要教授课程：  无机化学、无机化学（留学生）、基础化学实验、基础化学实验（留学生）（2）教学研究业绩[1] 夏盛杰。简明无机化学，2019年校级重点建设教材，2019.12[2] 夏盛杰，戴旭虹，薛继龙，程晶波，倪哲明。新高考背景下基于“双主体”的无机化学教学模式改革与探索，浙江省高等教育“十三五”第二批教学改革项目，2019.12[3] 夏盛杰，倪哲明，薛继龙，程晶波，曹晓霞。《无机化学》，2019年浙江省级精品在线开放课程认定。2020.03[4]夏盛杰，薛继龙，曹晓霞，程晶波，倪哲明。《无机化学（工科）》，国资委化工资源库建设子课题，2020.09–2021.12 [5]夏盛杰，郑立，赵少芬，程晶波，倪哲明。“大学化学基础”，2020年浙江省一流课程（线上线下混合），2021年5月[6] 夏盛杰，戴旭虹，薛继龙，程晶波，倪哲明。大学化学基础，2019浙江省本科院校“互联网+教学”优秀案例（线上线下混合课程），一等奖，2019.12[7] 夏盛杰，倪哲明。大学化学基础，第三批国家级一流本科课程拟推荐，2024.01 育人成果 主要培养的研究生情况： 累计培养博士生1人，硕士生10人；当前指导硕士生10人。主要荣誉情况：（1）省级优秀毕业生张晓锋（2019）、方镭（2020）、张冠华（联合培养，2022）、戴甜甜（2022）、王滢（2022）、杜月（2023）、袁鑫鑫（2023）、高枝妍（2023）（2）省级优秀硕士学位论文方镭（2020）（3）国家奖学金张晓锋（2018、2019）、张冠华（2018、2020、2021）、戴甜甜（2020）、王滢（2021）、杜月（2021、2022）、高枝妍（2021、2022）、袁鑫鑫（2022）、杨祖凡（2022）、李勋（2023）、杨洁仪（2023）、陈朱颖（2023）（4）指导学生竞赛[1] 李媛、陈婷婷、李苓菱、姜想，2015年浙江省大学生化学竞赛，三等奖，指导教师（夏盛杰），2015.08[2] 唐恒炜、孟成伟、丁懿、张群锋，2016年浙江省大学生化学竞赛，三等奖，指导教师（夏盛杰），2016.08[3] 张冠华等，含Cu、Au等过渡金属的核壳体系光催化材料的构筑及性能探讨，浙江省第十六届“挑战杯”大学生课外学术科技作品竞赛，二等奖，指导教师（夏盛杰），2019.05[4] 吕佳、梁鑫诗、李雨柔、顾雨欣，2019年浙江省大学生化学竞赛，一等奖，指导教师（夏盛杰），2019.08[5] 张冠华，王滢，戴甜甜，陈涛，方佳琪，黄梅，黄紫琪。春禾-苗木花卉“优质”土壤研发及推广，2020年第十三届全国大学生节能减排社会实践与科技竞赛，三等奖，指导教师（夏盛杰），2020.08[6] 戴甜甜，王滢，张武剑，袁鑫鑫，杜月，高枝妍，秦宇杭。光催化降解VOCs装备的研发和催化剂性能探究，2021年浙江省大学生挑战杯学科竞赛，三等奖，指导教师（夏盛杰），2021.05[7] 袁梓滢等，2021年浙江省大学生化学竞赛，一等奖，指导教师（夏盛杰），2021.12 科研项目 纵向[1] 基于双内建电场的晶面定向负载Cu2O-LaOBr合成氨光催化剂研究，2022年国家自然科学基金面上项目，22278371，54W。（2023.01.01–2026.12.31）在研[2] 基于层状杂化体系的复合金属氧化物制备及光解六氯苯的机理研究，2015年国家自然科学基金青年基金，21503188，25W。（2016.01–2018.12）结题[3] LDHs基多金属氧化物薄膜的合成及光电催化性能研究，2015年浙江省自然科学基金青年基金，LQ15B030002，5W。（2015.01–2017.12）结题[4] 浙江省石灰与水泥生产过程碳排放因子实测与核算，2013年浙江省公益性项目，2013C33014，20W（2013.07–2015.09）结题横向[1] 用于处理金属加工车间粉尘及废气的催化吸附材料的研发，杭州富阳振兴制动材料厂，2019.12–2021.12, 10W[2] 浙江华源颜料有限公司与浙江工业大学合作共建企业创新研发平台框架协议，浙江华源颜料有限公司，2021.06–2027.06, 300W[3] 碳带热转印项目的研发与产业化，浙江天地数码有限公司，2022.06–2026.06, 20W 科研成果 1. 论文（2013-至今）[1] Shengjie Xia, Fengxian Liu, Zheming Ni*, Jilong Xue, Pingping Qian. Layered double hydroxides as efficient photocatalysts for visible light degradation of Rhodamine B, Journal of Colloid and Interface Science, 2013, 405, 195–200. (IF=9.965)[2] Shengjie Xia, Fengxian Liu, Zheming Ni*, Wei Shi, Jilong Xue, Pingping Qian. Ti–based layered double hydroxides: efficient photocatalysts for Azo dyes degradation under visible light, Applied Catalysis B: Environmental, 2014, 144, 570–579. (IF=24.319)[3] Shengjie Xia, Xiaobo Zhou, Wei Shi, Guoxiang Pan, Zheming Ni*. Photocatalytic property and mechanism studies on acid red 14 by MxOy/ZnTi–layered double hydroxides (M=Fe,Sn,Ce), Journal of Molecular Catalysis A: Chemical, 2014, 392, 270–277. (IF=5.008)[4] Shengjie Xia, Lianyang Zhang, Guoxiang Pan, Pingping Qian, Zheming Ni*.Photocatalytic degradation of methylene blue with nanocomposite system: synthesis, photocatalysis and degradation pathways, Physical Chemistry Chemical Physics,2015, 17(7), 5345–5351. (IF=3.676)[5] Shengjie Xia, Lianyang Zhang, Xiaobo Zhou, Mengmeng Shao, Guoxiang Pan, Zheming Ni*. Fabrication of highly dispersed Ti/ZnO–Cr2O3 composite as highly efficient photocatalyst for naphthalene degradation, Applied Catalysis B: Environmental, 2015, 176: 266–277.(IF=24.319) [6] Shengjie Xia, Mengmeng Shao, Xiaobo Zhou, Guoxiang Pan, Zheming Ni*. Theoretical and Experimental Investigation into Photoelectrocatalytic oxidation and reduction property of ZnFeTi mixed metal oxides, Journal of Molecular Catalysis A: Chemical, 2015, 406, 127–136. (IF=5.008) [7] Shengjie Xia, Lianyang Zhang, Xiaobo Zhou, Guoxiang Pan, Zheming Ni*. The photocatalytic property for water splitting and the structural stability of CuMgM layered double hydroxides (M=Al, Cr, Fe, Ce), Applied Clay Science, 2015, 114, 577–585.(IF=5.907)[8] Shengjie Xia, Mengmeng Shao, Xiaobo Zhou, Guoxiang Pan, Zheming Ni*. Ti/ZnO–MxOy composite (M=Al, Cr, Fe, Ce): synthesis, characterization and application as a highly efficient photocatalyst for hexachlorobenzene degradation, Physical Chemistry Chemical Physics,2015, 17(40), 26690–26702. (IF=3.676)[9] Shengjie Xia, Yue Meng, Xiaobo Zhou, Jilong Xue, Guoxiang Pan, Zheming Ni*. Ti/ZnO–Fe2O3 composite: synthesis, characterization and application as a highly efficient photoelectrocatalyst for methanol from CO2reduction, Applied Catalysis B: Environmental, 2016, 187: 122–133. (IF=24.319)[10] 夏盛杰, 邵蒙蒙, 薛继龙, 倪哲明*. 含Ce水滑石基复合氧化物对混合染料的光催化性能, 无机化学学报, 2016, 32(6): 983–993.[11] Shengjie Xia*, Mengdan Qian, Xiaobo Zhou, Yue Meng, Jilong Xue, Zheming Ni*. Theoretical and experimental investigation into the photocatalytic degradation of hexachlorobenzene by ZnCr layered double hydroxides with different anions, Molecular Catalysis, 2017, 435: 118–127. (IF=5.062)[12] Shengjie Xia*, Xiaofeng Zhang, Xiaobo Zhou, Yue Meng, Jilong Xue, Zheming Ni*. The influence of different Cu species onto multi–copper–contained hybrid materials’ photocatalytic property and mechanism of chlorophenol degradation, Applied Catalysis B: Environmental, 2017, 214: 78–88. (IF=24.319)[13] Yue Meng, Xiaofeng Zhang, Guoxiang Pan, Shengjie Xia*, Zheming Ni*.Orthogonal synthesis of a novel hybrid layered material containing three different zincous components and its photocatalytic property investigation, Journal of Hazardous Materials, 2018, 350: 144–153. (IF=14.224) [14] Lei Fang, Wei Luo, Yue Meng, Xiaobo Zhou, Guoxiang Pan, Zheming Ni*, Shengjie Xia*. Visible–light–promoted selective hydrogenation of crotonaldehyde by Au supported ZnAl–layered double hydroxides: catalytic property, kinetics and mechanism investigation, Journal of Physical Chemistry C, 2018, 122(30), 17358–17369. (IF=4.126)[15] Guanhua Zhang, Xiaofeng Zhang, Yue Meng, Xiaobo Zhou, Guoxiang Pan, Zheming Ni*, Shengjie Xia*. Experimental and theoretical investigation into visible–light–promoted selective hydrogenation of crotonaldehyde to crotonyl alcohol using Au–Co,Ni alloy nanoparticles supported layered double hydroxides, Journal of Materials Chemistry A, 2018, 6, 15839–15852.(IF=12.732)[16] 孟跃, 夏盛杰*, 薛继龙, 倪生良, 倪哲明*. 基于水滑石的Zn–Cr–Cu复合金属氧化物的制备及其对罗丹明B的光催化降解性能. 无机化学学报, 2018, 34(9): 1632–1640. [17] Xiaofeng Zhang, Liwen Wang, Xiaobo Zhou, Zheming Ni, Shengjie Xia*. Investigation into the enhancement of property and the difference of mechanism onto visible light degradation of gaseous toluene catalyzed by ZnAl layered double hydroxides before and after Au supporting. ACS Sustainable Chemistry & Engineering,2018, 6(10), 13395–13407.(IF=8.198) [18] Shifeng Fu, Yuan Zheng, Xiaobo Zhou, Zheming Ni, Shengjie Xia*.Visible light promoted degradation of gaseous volatile organic compounds catalyzed by Au supported layered double hydroxides: influencing factors, kinetics and mechanism, Journal of Hazardous Materials, 2019, 363, 41–54. (IF=14.224) 高被引论文[19] Jilong Xue, Tao Chen, Yue Meng*, Xiaobo Zhou, Guoxiang Pan*, Zheming Ni, Shengjie Xia*. Efficient detoxication of heterocyclics by layered double hydroxides contained different cobalt components as photocatalysts based on controllable application of active free radicals, Journal of Photochemistry and Photobiology A: Chemistry, 2019, 371: 33–43.(IF=4.291) [20] 沈显荣, 孟跃, 夏盛杰*. 水滑石负载AuCu合金催化水煤气变换反应: 催化性能与结构组成. 无机化学学报, 2019, 35(7): 1239–1247. [21] Yue Meng, Yufu Chen, Xiaobo Zhou, Guoxiang Pan, Shengjie Xia*. Experimental and theoretical investigations into the activity and mechanism of water–gas shift reaction catalyzed by Au nanoparticles supported on Zn–Al/Cr/Fe layered double hydroxides, International Journal of Hydrogen Energy, 2020, 45(1), 464–476. (IF=7.319) 高被引论文[22] Yue Meng, Tiantian Dai, Xiaobo Zhou, Guoxiang Pan, Shengjie Xia*, Photodegradation of gaseous volatile organic compounds catalyzed by MCr–LDHs and hybrid MO@MCr–LDHs (M=Co, Ni, Cu, Zn): The comparison of activity, kinetics and photocatalytic mechanism, Catalysis Science＆Technology, 2020, 10, 424–439. (IF=6.119)[23] Guanhua Zhang#, Xueqiang Zhang#*, Yue Meng, Guoxiang Pan, Zheming Ni, Shengjie Xia*, Layered double hydroxides–based photocatalysts in visible–light photodegradation of organic pollutants: A review, Chemical Engineering Journal,2020, 392, 123684. (IF=16.744)高被引论文/热点论文[24] Yue Meng, Shengjie Xia*,Xiaobo Zhou*, Guoxiang Pan, Mechanism of selective hydrogenation of cinnamaldehyde on Ni–Pt(111) with different structures: A comparative study, Chemical Physics Letters, 2020, 740, 137049.(IF=2.719)[25] Lei Fang, Tao Chen, Yue Meng, Ying Wang, Jilong Xue, Zheming Ni,Shengjie Xia*.Water–gas shift reaction catalyzed by Au32M6 (M=Cu, Pt, Pd, Rh, Ir) core–shell nanoclusters: A density functional theory study,Molecular Catalysis, 2020, 483, 110757. (IF=5.062)[26] 张冠华, 陈雨芙, 孟跃, 薛继龙, 夏盛杰*, 倪哲明*.AuCu/ZnAl–LDO复合光催化剂的制备及其光催化性能, 无机化学学报, 2020, 36(5), 875-884. [27] Shengjie Xia*, Lei Fang, Yue Meng, Lianyang Zhang, Xueqiang Zhang*, Chao Yang*, Zheming Ni. Water–gas shift reaction catalyzed by layered double hydroxides supported Au–Ni/Cu/Pt bimetallic alloys, Applied Catalysis B: Environmental, 2020, 272, 118949. (IF=24.319)高被引论文[28] Lei Fang, Tao Chen, Yue Meng, Lianyang Zhang, Guoxiang Pan, Zheming Ni, Shengjie Xia*. Size effect of CO2 adsorption onto Au cluster-functionalized monolayer ZnAl hydrotalcite:Insights from first-principles computations,Applied Surface Science, 2020, 525, 146612. (IF=7.392)[29] Shengjie Xia*, Tiantian Dai, Yue Meng, Xiaobo Zhou*, Guoxiang Pan*, Xueqiang Zhang, Zheming Ni, Low–temperature water–gas shift reaction catalyzed by hybrid NiO@NiCr–layered double hydroxides: catalytic property, kinetics and mechanism investigation,Physical Chemistry Chemical Physics, 2020, 22, 12630–12643.(IF=3.676) [30] Jilong Xue, Ying Wang, Yue Meng*, Xiaobo Zhou, Guoxiang Pan*, Shengjie Xia*. Investigation of decarbonylation mechanism of furfural on Pd (111) and M/Pd (111) (M=Ru, Ni, Ir) surfaces, Molecular Catalysis, 2020, 493, 111054. (IF=5.062)[31] Shengjie Xia, Guanhua Zhang, Yue Meng, Chao Yang*, Zheming Ni, Jun Hu*. Kinetic and mechanistic analysis for the photodegradation of gaseous formaldehyde by core-shell CeO2@LDHs, Applied Catalysis B: Environmental, 2020,278, 119266. (IF=24.319) [32] Guanhua Zhang, Tiantian Dai, Yue Meng, Lianyang Zhang, Guoxiang Pan, Chao Yang*, Zheming Ni, Shengjie Xia*. Bridged-Au Z‑Scheme heterojunction ZnO-Au-ZnAl2O4: Electron transfer and kinetics of photodegradation,Applied Surface Science, 2020, 532, 147456. (IF=7.392)[33] Chao Yang, Yue Meng*, Shengjie Xia*, Guoxiang Pan. Interfacial Chemistry and Charge Transfer on a Thiolated-Au/TiO2 Photocatalyst under X-ray Excitation, Journal of Physical Chemistry C,2020, 124(40), 22212–22220.(IF=4.126) [34] Lianyang Zhang, Yue Meng*, Guoxiang Pan, Shengjie Xia*. Experimental and theoretical investigation into the performance and mechanism of CO2 capture by 3D and 2D ZnAl-layered double hydroxides, Inorganic Chemistry, 2020, 59, 17722−17731 (IF=5.436)[35] Ying Wang, Yue Meng*, Zheming Ni, Shengjie Xia*. Promotion of H2 adsorption performance on InN monolayer by embedding Cu atom: A first-principles study, International Journal of Hydrogen Energy, 2021, 46(1), 848−857. (IF=7.139) 高被引论文[36] Chao Yang,Guanhua Zhang, Yue Meng*, Guoxiang Pan*, Zheming Ni, Shengjie Xia*. Direct Z-scheme CeO2@LDH core-shell heterostructure for photodegradation of Rhodamine B by synergistic persulfate activation, Journal of Hazardous Materials,2021, 408, 124908. (IF=14.224) 高被引论文[37] Haodong Tang, Wujian Zhang, Yue Meng, Shengjie Xia*. A direct Z-scheme heterojunction with the high performance of boosted photo generated charge carriers transportation for highly efficient photodegradation of PFOA: Reaction kinetics and mechanism, Applied Catalysis B: Environmental, 2021, 285, 119851.(IF=24.319) 高被引论文[38] 张连阳, 吴俊杰, 孟跃*, 夏盛杰*. 用于光降解罗丹明B及光解水制氢的CeO2@NiAl–LDHs直接Z–scheme异质结：性能及机理, 无机化学学报, 2021, 37(2), 316-326. [39] Guanhua Zhang, Tiantian Dai, Yue Meng, Bo Xie, Zheming Ni, Shengjie Xia*. Modulation of photo-generated solvated electrons for ammonia synthesis via facet-dependent engineering of heterojunctions, Applied Catalysis B: Environmental, 2021, 288, 119990. (IF=24.319)[40] Chao Yang, Yue Meng*, Bo Xie, Shengjie Xia*. Impacts of solvation on polypeptide photo-damage: Modulation and biological implications, Journal of Photochemistry and Photobiology B: Biology, 2021, 220, 112214. (IF=6.252) [41] Guanhua Zhang, Yue Meng, Bo Xie, Zheming Ni, Hanfeng Lu, Shengjie Xia*. Precise location and regulation of active sites for highly efficient photocatalytic synthesis of ammonia by facet-dependent BiVO4 single crystals, Applied Catalysis B: Environmental, 2021, 296, 120379. (IF=24.319) 热点论文[42] Ying Wang, Yue Du, Yue Meng*, Bo Xie, Zheming Ni, Shengjie Xia*. Monatomic Ti doped on defective monolayer BN as an electrocatalyst for the synthesis of ammonia：A DFT study, Applied Surface Science, 2021, 563, 150277. (IF=7.392) [43] Lianyang Zhang, Yue Meng*, Jianming Yang, Hui Shen, Chunfang Yang, Bo Xie, Shengjie Xia*. Theoretical study on dry reforming of methane catalyzed by Cu12M (M = Cu, Fe, Co, Ni) core-shell bimetallic clusters, Fuel, 2021, 303,121263. (IF=8.035)[44] Tiantian Dai, Ziying Yuan, Yue Meng*, Bo Xie, Zheming Ni, Shengjie Xia*. Performance and mechanism of photocatalytic degradation of tetracycline by Z–scheme heterojunction of CdS@LDHs, Applied Clay Science,2021, 212, 106210. (IF=5.907)[45] Shengjie Xia*, Guanhua Zhang, Zhiyan Gao, Yue Meng, Bo Xie, Hanfeng Lu, Zheming Ni. 3D hollow Bi2O3@CoAl-LDHs direct Z-Scheme heterostructure for visible-light-driven N2 fixation,Journal of Colloid and Interface Science,2021, 604, 798–809. (IF=9.965) [46]Haodong Tang, Wujian Zhang, Bo Xie, Yue Meng*, Zheming Ni, Shengjie Xia*. Investigation onto the performance and mechanism of visible light photodegradation of methyl orange catalyzed by M/CeO2 (M=Pt, Ag, Au), Materials Research Bulletin, 2021, 144, 111497. (IF=4.641)[47]Lianyang Zhang, Yue Meng*, Hui Shen, Jinhua Li, Chunfang Yang, Bo Xie, Shengjie Xia*. Photocatalytic degradation of rhodamine B by Bi2O3@LDHs S-scheme heterojunction: performance, kinetics and mechanism, Applied Surface Science, 2021, 567, 150760. (IF=7.392) [48] Lianyang Zhang, Yue Meng*, Bo Xie, Shengjie Xia*. Theoretical investigation onto the reaction mechanism of dry reforming of methane on core-shell Cu-Ni-Pt ternary alloy clusters, Chemical Physics Letters, 2021, 781, 138975. (IF=2.719)[49] Zhiyan Gao, Ying Wang, Yue Meng*, Bo Xie, Zheming Ni*, Shengjie Xia*. Theoretical study on structural properties and hydrogen adsorption performance of C3N doped with monoatomic Al/Li, Chemical Physics Letters, 2021, 782, 139015. (IF=2.719)[50] Yue Du, Tao Chen, Yue Meng*, Bo Xie, Zheming Ni*, Shengjie Xia*. Molecular structure, electronic properties and stability of carbon coated M13@C60 (M=Cu, Ag, Pt) nanoclusters, Computational and Theoretical Chemistry, 2021, 1205 113434. (IF=2.292)[51] Zhiyan Gao, Yue Meng*, Hui Shen, Bo Xie, Zheming Ni*, Shengjie Xia*. Theoretical study on low temperature reverse water gas shift reaction (RWGSR) mechanism on monatomic transition metal M doped C2N catalyst (M=Cu, Co, Fe), Molecular Catalysis, 2021, 516, 111992. (IF=5.089) [52] Guanhua Zhang, Xinxin Yuan, Bo Xie, Yue Meng, Zheming Ni, Shengjie Xia*. S Vacancies act as a bridge to promote electron injection from Z-scheme heterojunction to nitrogen molecule for photocatalytic ammonia synthesis,Chemical Engineering Journal, 2022, 431, 133670.(IF=16.744) 高被引论文[53] Lianyang Zhang, Yue Meng*, Tiantian Dai, Yiyang Yao, Hui Shen, Bo Xie, Zheming Ni, Shengjie Xia*. The fabrication of coated BiVO4@LDHs Z-scheme heterojunction and its photodegradation of antibiotics, Applied Clay Science, 2022, 219, 106435. (IF=5.907) 高被引论文[54] Lianyang Zhang, Yue Meng*, Hui Shen, Jinhua Li, Chunfang Yang, Bo Xie, Shengjie Xia*. High efficiency photocatalytic ammonia synthesis by facet orientation supported heterojunction Cu2O@BiOCl[100] boosted by double built-in electric field, Inorganic Chemistry, 2022, 61(16), 6045–6055. (IF=5.436) [55]Xinxin Yuan, Jieyi Yang, Yiyang Yao, Hui Shen, Yue Meng*, Bo Xie, Zheming Ni, Shengjie Xia*. Preparation, characterization, and mechanism of 0D/2D Cu2O/BiOCl Z-scheme heterojunction for efficient photocatalytic degradation of tetracycline, Separation and Purification Technology, 2022, 291, 120965. (IF=9.136)高被引论文[57]Lianyang Zhang, Yue Meng*, Aoki Koso, Yiyang Yao, Haodong Tang, Shengjie Xia*. The mechanism of nitrogen reduction reaction on defective BN monolayer with monatomic Co, Ni, and Mo doped-A First principles study,Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2022, 647, 129072. (IF=5.518)[58]Zhiyan Gao, Yue Meng, Aoki Koso, Juji Mishima, Bo Xie, Zheming Ni, Shengjie Xia*. Theoretical study on CO2 reduction to methanol catalyzed by single-atom transition metal (TM)-doped (TM= Cu, Pd) bilayer 2D materials, Colloids and Surfaces A-Physicochemical and Engineering Aspects, 2022, 648, 129365. (IF=5.518) [59] Yue Du, Shaofen Zhao, Haodong Tang, Zheming Ni, Shengjie Xia*.An Active MoS2 with Pt-doping and Sulfur Vacancy for Strengthen CO2 Adsorption and Fast Capture: A DFT Approach, Chemical Physics Letters, 2022, 802, 139784. (IF=2.719)[60]Zufan Yang, Zhiling Huang, Yue Meng, Shaofen Zhao, Bo Xie, Zheming Ni, Shengjie Xia*.Theoretical study on structural properties and nitrogen reduction mechanism of monatomic Sc and Mo doped Li deficient LiH, Chemical Physics Letters, 2022, 803, 139855.(IF=2.719) [61] Zhiyan Gao, Zhiling Huang, Yue Meng, Haodong Tang, Zheming Ni, Shengjie Xia*. Theoretical Study on the Mechanism of CO2 Adsorption and Reduction by Single-atom M (M=Cu, Co, Ni) Doping C2N, Chemical Physics Letters, 2022, 804, 139902. (IF=2.719) [62]Xun Li, Ziying Yuan, Zhiling Huang, Aoki Koso, Jinhua Li, Bo Xie, Zheming Ni, Shengjie Xia*. The photodegradation property and mechanism of tetracycline by persulfate radical activated In2O3@LDHs Z−scheme heterojunction, Separation and Purification Technology, 2022, 303, 122077.(IF=9.136)[63] Yue Du, Zhiling Huang, Ziying Yuan, Hui Shen, Jinhua Li, Bo Xie, Zheming Ni, Shengjie Xia*. Theoretical study on water gas shift mechanism on monatomic transition metal M supporting MoS2 catalyst (M=Co, Ni, Cu), Molecular Catalysis, 2022, 531, 112713. (IF=5.089)[64] Guanhua Zhang, Jieyi Yang, Zhuling Huang, Guoxiang Pan, Bo Xie, Zheming Ni, Shengjie Xia*. Construction dual vacancies to regulate the energy band structure of ZnIn2S4 for enhanced visible light-driven photodegradation of 4-Nitrophenol, Journal of Hazardous Materials, 2023, 441, 129916. (IF=14.224) 高被引论文[65] Xinxin Yuan, Zhiling Huang, Jinhua Li*, Yue Meng, Zhenhai Gu, Bo Xie, Zheming Ni, Shengjie Xia*. The S−Cu−O bonds boosted efficient photocatalytic degradation of semi-coherent interface Cu2O/Cu7S4 heterojunction, Separation and Purification Technology, 2023, 306, 122689. (IF=9.132) [66] Jieyi Yang, Zhiling Huang, Jinhua Li*, Yiyang Yao, Yue Meng, Bo Xie, Zheming Ni, Shengjie Xia*. Photocatalytic reduction of nitrogen to ammonia by bismuth oxyhalides containing oxygen vacancies, Colloids and Surfaces A-Physicochemical and Engineering Aspects,2023, 662, 130995. (IF=5.518)[67] Wujian Zhang, Zhiling Huang, Lianyang Zhang, Yue Meng, Zheming Ni, Haodong Tang*, Shengjie Xia*. Construction of zinc-oxygen double vacancies BiOCl/ZnS Z-scheme heterojunction and photocatalytic degradation of norfloxacin, Journal of Environmental Chemical Engineering, 2023, 11, 109977. (IF=7.968) [68] Jieyi Yang, Zhiling Huang, Yue Meng, Zheming Ni, Bo Xie, Shengjie Xia*. Experimental and theoretical study on photocatalytic nitrogen reduction catalyzed by Fe-doped MoO2, Separation and Purification Technology, 2023, 318, 124019. (IF=9.136) [69] Xun Li, Yue Meng*, Zhiling Huang, Lianyang Zhang, Bo Xie, Zheming Ni, Shengjie Xia*. Study on the performance and mechanism of persulfate activation boosted MoO2@LDHs Z-scheme heterojunction for efficient photocatalytic degradation of tetracycline, Journal of Environmental Chemical Engineering, 2023, 11, 110257. (IF=7.968)[70] Ziying Yuan, Yongyong Cao*, Yue Meng, Guoxiang Pan, Yifan Zheng, Zheming Ni, Shengjie Xia*. The construction of lattice-matched CdS-Ag2S heterojunction photocatalysts: High-intensity built-in electric field effectively boosts bulk-charge separation efficiency, Journal of Hazardous Materials,2023, 485, 131895. (IF=13.6) [71] Jiazhen Li, Yue Meng, Zhiyan Gao, Bo Xie, Shengjie Xia*, Zhisheng Fu*. Bimetallic doped C2N catalyzed CO2 reduction to ethylene: A first–principles study, Separation and Purification Technology, 2023, 323, 124404. (IF=8.6) [72] Zhuying Chen, Yiyang Yao, Hui Shen, Bo Xie, Zheming Ni, Shengjie Xia*. The performance and mechanism for photocatalyticdegradation of methylene blue catalyzed by ultrathin NiAl-layered double hydroxides,Chemical Physics Letters,2023, 828, 140718. (IF=2.8) [73] Lianyang Zhang, Yue Meng, Bo Xie, Zheming Ni, Shengjie Xia*. Br doping promotes the transform of Cu2O (100) to Cu2O (111) and facilitates efficient photocatalytic degradation of tetracycline, Molecular Catalysis,2023, 548, 113431. (IF=4.6) [74] Yue Meng, Yun Jia, Zhiling Huang, Chundong Liu, Bo Xie, Shengjie Xia*, Takeaki Sakurai*.Preparation and photocatalytic properties of multicomponent Nickel-containing organic-inorganic hybrid materials based on ZnCr-LDHs, Journal of Physics and Chemistry of Solids, 2023, 183, 111644. (IF=4.0) [75] Qiang Fu, Yue Meng, Yiyang Yao, Hui Shen, Bo Xie, Zheming Ni, Shengjie Xia*. Construction of facet orientation-supported Z-scheme heterojunction of BiVO4 (110)-Fe2O3 and its photocatalytic degradation of tetracycline, Journal of Environmental Chemical Engineering,2023, 11(5), 111060. (IF=7.7) [76] Zufan Yang, Yue Meng, Bo Xie, Zheming Ni, Shengjie Xia*. The structural stability and mechanism of ammonia synthesis of single layer CdS doped by 13 transition metal: First-principles study, Fuel, 2024, 355, 129406. (IF=7.4) [77] Xun Li, Yue Meng*, Wei Shi, Bo Xie, Zheming Ni, Shengjie Xia*. Construction of high reduction potential Fe-POMs/LDHs Z-scheme heterojunction: variable valence state-assisted photocatalytic activation of persulfate radical for synergistic degradation of tetracycline, Materials Research Bulletin,2024, 170, 112591. (IF=5.4)[78] Weiling Zhao, Zhiling Huang, Hui Shen, Xianglong Li, Shaofen Zhao, Bo Xie, Shengjie Xia*. Density functional theory study of CO2 adsorption on transition metal (M=Al, Li, K, Ca) doped MgO, Molecular Catalysis,2024, 553, 113708. (IF=4.6) [79] Shengjie Xia*, Ziying Yuan, Yue Meng, Chen Zhang, Xianglong Li, Zheming Ni, Xueqiang Zhang*. Fabrication of site activated and synergistic dual vacancies ZnIn2S4for highly efficient bifunctional photocatalysis: nitrogen reduction and oxidative degradation, Journal of Materials Chemistry A,2024, 12(4), 2294-2308. (IF=11.9) 2. 授权发明专利[1] 夏盛杰，高枝妍，张冠华，倪哲明，谢波。一种3D核壳β-氧化铋/钴铝水滑石直接Z型异质结催化剂及其制备方法与应用, ZL202110405848.2[2] 夏盛杰，方镭，倪哲明。一种负载型单层水滑石结构研究方法。ZL201910807685.3[3] 夏盛杰, 张晓锋, 薛继龙, 倪哲明。钴铬水滑石负载碘氧化铋复合材料及其制备方法与应用，ZL201810670031.6[4] 夏盛杰，方镭，倪哲明。一种提高单层水滑石吸附CO2气体性能的方法，ZL201910729417.4[5] 夏盛杰，周凯，潘国祥。一种耐高温氧化铁黄颜料及其合成方法。ZL201910729189.0[6] 夏盛杰，张冠华，倪哲明。 一种核壳结构二氧化铈/钴铝水滑石材料的制备方法, ZL202010614630.3[7] 夏盛杰，张冠华，倪哲明，谢波,。一种含有S空位的Z型异质结光催化剂的制备方法, ZL202110987035.9  2023.07.21[8] 夏盛杰，袁鑫鑫，张冠华，倪哲明，沈辉。一种含有硫空位和锌空位的硫化铟锌光催化剂及其制备方法与应用，ZL 202210969313.2  2024.01.16 内容来自集群智慧云企服 软件著作权666元代写全部资料全国受理