隋铭皓 - 同济大学 - 环境科学与工程学院

个人简介

教育经历 1999.9 - 2004.11 哈尔滨工业大学硕士、博士 1992.9 - 1996.7 哈尔滨建筑工程学院本科工作经历 2012.12 – 今同济大学环境科学与工程学院教授 2007.6 - 2012.12 同济大学环境科学与工程学院副教授 2006.6 - 2007.6 同济大学环境科学与工程学院讲师 2004.11 - 2006.6 中国地震局工程力学研究所博士后 1996.7 - 1999.7 哈尔滨建筑工程大学教师科研项目国家重点研发计划，2019YFC0408801，城乡供水节水和水质提升技术研究与示范，2019.12-2022.6，在研，主持水体污染控制与治理科技重大专项，2014ZX07405-003，巢湖饮用水水质净化工艺优化与技术示范，2014.1-2019.12，结题，主持国家自然科学基金，51478322，纳米n-Ag/SiO2@Fe3O4饮用水消毒抗菌性能与机理研究，2015.1-2018.12，结题，主持国家自然科学基金，51278351，有序介孔锰氧化物催化双氧水降解水中高稳定性有机污染物特性及机理研究，2013.1-2016.12，结题，主持国家自然科学基金，51078281，层状双金属氢氧化物及氧化物催化臭氧氧化降解水中有机污染物技术研究，2011.1-2013.12，结题，主持国家自然科学基金，50708067，天然有机物对多相催化臭氧氧化降解高稳定有机污染物影响研究，2008.1-2010.12，结题，主持上海市启明星计划项目，08QA14067，递进强化臭氧氧化水中高稳定性有机污染物技术研究，2008.7-2010.7，结题，主持全国百篇优秀博士论文，2007B48，饮用水水源与饮用水典型抗生素污染研究及其处理技术，2008.1-2012.12，结题，主持上海市自然科学基金，07ZR14116，通航河流饮用水源三丁基锡污染评价及控制技术，2007.12-2009.12，结题，主持国家科技支撑计划，2007BAC26B03，高藻水源水饮用水处理技术与工艺研究及示范，2007.8-2010.8，结题，主持第三十八批博士后科学基金，多相催化臭氧氧化技术降解水中有机污染物机理研究，2005.1-2006.12，结题，主持

研究领域

水处理；高级氧化技术；水中有机污染物去除；消毒；致病微生物灭活；纳米材料

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

Yuan B, Sui M, Lu H, et al. The combined effect of light irradiation and chloride on the physicochemical properties of silver nanoparticles [J]. RSC Advances, 2020, 10(1): 228-235. Wang J, Sui M, Li H, et al. The effects of ultraviolet disinfection on vancomycin-resistant Enterococcus faecalis [J]. Environmental Science-Processes & Impacts, 2020, 22(2): 418-429. 马占芳, 隋铭皓, 袁博杰等. 季铵盐/纳米银灭活水中细菌效能研究 [J]. 哈尔滨工业大学学报, 2019, 51(08): 28-36. Yuan B, Sui M, Qin J, et al. Effect of bicarbonate on physiochemical properties of silver nanoparticles and toxicity to Escherichia coli [J]. Journal of Colloid and Interface Science, 2019, 539: 297-305. Wang J, Sui M, Yuan B, et al. Inactivation of two Mycobacteria by free chlorine: Effectiveness, influencing factors, and mechanisms [J]. Science of the Total Environment, 2019, 648: 271-284. Wang J, Sui M, Ma Z, et al. Antibacterial performance of polymer quaternary ammonium salt-capped silver nanoparticles on Bacillus subtilis in water [J]. RSC Advances, 2019, 9(44): 25667-25676. Lu H, Sui M, Yuan B, et al. Efficient degradation of nitrobenzene by Cu-Co-Fe-LDH catalyzed peroxymonosulfate to produce hydroxyl radicals [J]. Chemical Engineering Journal, 2019, 357: 140-149. 许光益, 隋铭皓, 袁博杰等. 纳米CuFe2O4活化过一硫酸盐降解诺氟沙星性能 [J]. 哈尔滨工业大学学报, 2018, 50(02): 46-53. Qin J, Sui M, Yuan B, et al. The decay of silver nanoparticles in preoxidation process [J]. Science of the Total Environment, 2018, 619: 1618-1627. Liu J, Sui M, Sheng L. Hydrothermal synthesis,characterization and catalytic performance of Mn-MCM-41 mesoporous molecular sieve [J]. Modern Chemical Industry, 2018, 38(7): 93-97. Yuan Z, Sui M, Yuan B, et al. Degradation of ibuprofen using ozone combined with peroxymonosulfate [J]. Environmental Science-Water Research & Technology, 2017, 3(5): 960-969. Yuan Z, Sui M, Yang J, et al. Catalytic activity and mechanism of ordered mesoporous iron oxides on hydrogen peroxide for degradation of norfloxacin in water at neutral pH [J]. Environmental Chemistry, 2017, 14(6): 361-369. Huang T, Sui M, Li J. Inactivation of E. coli by nano-Cu/MWCNTs combined with hydrogen peroxide [J]. Science of the Total Environment, 2017, 574: 818-828. Zhang X, Yan X, Huang T, et al. Preparation and antibacterial activity of graphene oxide-silver nanocomposite [J]. Materials Review, 2016, 30(6B): 18-21,44. Zhang X, Sui M, Yan X, et al. Mitigation in the toxicity of graphene oxide nanosheets towards Escherichia coli in the presence of humic acid [J]. Environmental Science-Processes & Impacts, 2016, 18(6): 744-750. Huang T, Sui M*, Yan X, et al. Anti-algae efficacy of silver nanoparticles to Microcystis aeruginosa: Influence of NOM, divalent cations, and pH [J]. Colloids and Surfaces a-Physicochemical and Engineering Aspects, 2016, 509: 492-503. Sheng L, Huang S, Sui M*, et al. Deposition of copper nanoparticles on multiwalled carbon nanotubes modified with poly (acrylic acid) and their antimicrobial application in water treatment [J]. Frontiers of Environmental Science & Engineering, 2015, 9(4): 625-633. Sui M, Zhang L, Sheng L, et al. Synthesis of ZnO coated multi-walled carbon nanotubes and their antibacterial activities [J]. Science of the Total Environment, 2013, 452: 148-154. Sui M, She L, Sheng L, et al. Ordered mesoporous manganese oxide as catalyst for hydrogen peroxide oxidation of norfloxacin in water [J]. Chinese Journal of Catalysis, 2013, 34(3): 536-541. Sui M, She L. Review on research and application of mesoporous transitional metal oxides in water treatment [J]. Frontiers of Environmental Science & Engineering, 2013, 7(6): 795-802. Sui M, Zhou Y, Sheng L, et al. Adsorption of norfloxacin in aqueous solution by Mg-Al layered double hydroxides with variable metal composition and interlayer anions [J]. Chemical Engineering Journal, 2012, 210: 451-460. Sui M, Xing S, Sheng L, et al. Heterogeneous catalytic ozonation of ciprofloxacin in water with carbon nanotube supported manganese oxides as catalyst [J]. Journal of Hazardous materials, 2012, 227: 227-236. Sui M, Duan B, Sheng L, et al. Catalytic performance of layered double hydroxides Co-Mn-Al for ozonation of organic pollutants in water [J]. Chinese Journal of Catalysis, 2012, 33(8): 1284-1289. Sui M, Xing S, Zhu C, et al. Kinetics of ozonation of typical sulfonamides in water [J]. Biomedical and Environmental Sciences, 2011, 24(3): 255-260. Sui M, Liu J, Sheng L. Mesoporous material supported manganese oxides (MnOx/MCM-41) catalytic ozonation of nitrobenzene in water [J]. Applied Catalysis B-Environmental, 2011, 106(1-2): 195-203. Sui M-H, Sheng L, Ma J, et al. Assistance of magnesium cations on degradation of refractory organic pollutant by ozone: Nitrobenzene as model compound [J]. Ozone-Science & Engineering, 2010, 32(2): 113-121. Sui M, Sheng L, Lu K, et al. FeOOH catalytic ozonation of oxalic acid and the effect of phosphate binding on its catalytic activity [J]. Applied Catalysis B-Environmental, 2010, 96(1-2): 94-100. Ma J, Sui M H, Zhang T, et al. Effect of pH on MnOx/GAC catalyzed ozonation for degradation of nitrobenzene [J]. Water Research, 2005, 39(5): 779-786.