五、主要学术论文、专著及专利 1.主要学术论文 1)Zhong, D.; Wu, Y.; Lv, L.; Yang, X.; Lv, Y.; Jiang, Y.*, Magnetic confinement-enabled membrane reactor for enhanced removal of wide-spectrum contaminants in water: Proof of concept, synergistic decontamination mechanisms, and sustained treatment performance.Water Research2023, 231, 119603 (自然指数期刊) 2)Zhong, D.; Zhang, J.; Lv, L.; Lv, Y.*; Jiang, Y.*, Magnetically ultrastabilized graphene oxide-based membrane filters for point-of-use water treatment.ACS ES&T Engineering2022, 2, 769–779 (期刊封面论文) 3)Zhong, D.; Ren, S.; Dong, X.; Yang, X.; Wang, L.*; Chen, J.*; Zhao, Z.; Zhang, Y.; Tsang, D. C.W.; Crittenden, J.C., Rice husk-derived biochar can aggravate arsenic mobility in ferrous-rich groundwater during oxygenation.Water Research2021, 200, 117264 (自然指数期刊) 4)Zhong, D.; Zhao, Z.; Jiang, Y.; Yang, X.; Wang, L.*; Chen, J.; Guan, C.-Y.; Zhang, Y.; Tsang, D. C.W.; Crittenden, J.C., Contrasting abiotic As(III) immobilization by undissolved and dissolved fractions of biochar in Ca2+-rich groundwater under anoxic conditions.Water Research2020, 183, 116106 (自然指数期刊) 5)Zhong, D.; Jiang, Y.; Zhao, Z.; Wang, L.*; Chen, J.; Ren, S.; Liu, Z.; Zhang, Y.*; Tsang, D. C.W.; Crittenden, J.C., pH dependence of arsenic oxidation by rice-husk derived biochar: Roles of redox active moieties.Environmental Science & Technology2019, 53, 9034–9044 (自然指数期刊,2019年8月最佳阅读量论文) 6)Zhong, D.; Zhang, Y.; Wang, L.*; Chen, J.; Jiang, Y.; Tsang, D. C.W.; Zhao, Z.; Ren, S.; Liu, Z.; Crittenden, J.C., Mechanistic insights into adsorption and reduction of hexavalent chromium from water using magnetic biochar composite: Key roles of Fe3O4and persistent free radicals.Environmental Pollution2018, 243, 1302–1309 7)Yu, H.;Zhong, D.; Zeng, H.; Huang, B.; Wang, X.*; Peng, B.; Zhang, R., Can arsenic immobilization in paddy soils be achieved simultaneously with cadmium by liming?Environmental Science and Pollution Research2023, 30, 73677–73687 8)Li. H.; Xiao, J.; Zhao, Z.;Zhong, D.; Chen, J.; Xiao, B.; Xiao, W.; Wang, W.; Wang, L.*; Crittenden, J.C., Reduction of cadmium bioavailability in paddy soil and its accumulation in brown rice by FeCl3washing combined with biochar: A field study.Science of The Total Environment2022, 851, 158186 9)Huang, M.; Han, Y.; Xiang, W.;Zhong, D.; Wang, C.; Zhou, T.*; Wu, X.; Mao, J.,In situ-formed phenoxyl radical on the CuO surface triggers efficient persulfate activation for phenol degradation.Environmental Science & Technology2021, 55, 15361–15370 (自然指数期刊) 10)Yao, D.; Shi, Y.; Pan, H.;Zhong, D.; Hou, H.; Wu, X.; Chen, J.*; Wang, L.*; Hu, Y.; Crittenden, J.C., Promotion mechanism of natural clay colloids in the adsorption of arsenite on iron oxide particles in water.Chemical Engineering Journal2020, 392, 123637 11)Chen, J.*;Zhong, D.; Hou, H.; Li, C.; Yang, J.; Zhou, H.; Hu, L.; Wang, L.*, Ferrite as an effective catalyst for HCB removal in soil: Characterization and catalytic performance.Chemical Engineering Journal2016, 294, 246–253 12)Wang, X.;Zhong, D.; Hou, H.; Gu, Q.; Yang, R.; Chen, J.*; Yang, J.; Wang, L.*, Catalyticdegradation of PNP and stabilization/solidification of Cd simultaneously in soil using microwave-assisted Fe-bearing attapulgite.Chemical Engineering Journal2016, 304,747–756 13)Liu, W.;Zhong, D.; Zhou, H.; Wang, L.*; Chen, J.*; Lu, X., Enhanced degradation of chloramphenicol in soil using activated carbon fiber supported nanoscale zerovalent iron coupled with microwave irradiation.Environmental Engineering & Management Journal2016, 15, 2215–2221 14)Liao, X.; Zhu, S.;Zhong, D.; Zhu, J.*; Liao, L.*, Anaerobic co-digestion of food waste and landfill leachate in single-phase batch reactors.Waste Management2014, 34, 2278–2284 15)Wang, X.; Pu, S.*; Ding, J.; Chen, J.; Liao, P.;Zhong, D.; Tsang, D. C.W.; Crittenden, J.C., Wang, L.*, Role of kaolinite in arsenate immobilization induced by ferrous iron oxidation: Significance of size control. (Environmental Science & Technology,返修中) 2.专著 1)Zhong, D.; Gan, L.; Jiang, Y.*, Engineered graphene oxide as advanced separation material for water treatment. In: Matthew Tirrell; Chen Junhong (eds)The World Scientific Reference of Water Science Volume 2: Nanotechnology for Water Treatment and Water Interfaces.World Scientific Publishing Company, 2022. 31–61 3.专利 1)王琳玲(导师)、钟德来、陈静、赵泽州、李鸿博、任树鹏,一种利用生物炭氧化地下水中三价砷的方法,专利号ZL201910435744.9 (国家发明专利,已授权) 2)Jiang, Y. (co-supervisor);Zhong, D.; Wu, Y., Water treatment system using a magnetic confinement method, PCT Patent Application (PCT/CN2023/105929) 3)陈静、赵泽州、王琳玲、李鸿博、钟德来、任树鹏、尹文利,一种用生物炭去除富钙高砷地下水中砷的方法,专利号ZL201910436474.3 (国家发明专利,已授权) 4)陈静、王琳玲、王棣、任立明、叶勇、相秀宝、张大定、李鸿博、钟德来,一种同步式有机污染土壤微波修复设备,专利号ZL201610531147.2 (国家发明专利,已授权) |