江苏科技大学

唐玉斌

发布日期:2024-04-08 浏览次数:

唐玉斌 教授 环境与化学工程学院 个人邮箱: tangyubin@just.edu.cn 办公地点: 行政科研大楼1127 通讯地址: 镇江市丹徒区长晖路666号 邮政编码: 212003 传真: 您是第21834 位访问者 个人简介    唐玉斌,工学博士,教授。曾先后任生物技术学院副院长、生物与化学工程学院院长、教务处处长、评估处处长,现为学校教学督导专家组组长,教育部全国生态环境职业教育教学指导委员会(生态环境行指委)委员、江苏省环境科学学会理事、省化学化工学会理事、省低碳技术学会理事、镇江市环境科学学会副理事长。《Journal of Chemical Technology and Biotechnology》《Archives of Environmental Protection》《环境工程学报》等多部国内外期刊审稿专家,“环境工程”国家一流专业建设点负责人。主讲《水污染控制工程》(本科)、《污染控制化学》(研究生)、《污染控制工程》(研究生)等课程,主编并正式出版教材1部(《水污染控制工程》)。主持国家863计划子课题1项、江苏省自然科学基金项目2项、江苏省高校自然科学研究计划项目2项、张家港市科技计划项目1项、企业委托课题6项,先后参与国家自然科学基金和省及教育厅自然科学基金课题3项,在《Chemical Engineering Journal》《Chemosphere》《Journal of Environmental Sciences》《中国环境科学》等国内外学术期刊发表论文180余篇(截止2024年2月,第一作者和通讯作者论文90篇),近60篇论文被SCI、EI收录,获授权国家发明专利4件。获省级教学成果奖一、二等奖3项,学校教学成果特等奖、一等奖各1项,指导学生获得首届江苏省大学生科技创新论文大赛特等奖1项,获得全国大学生节能减排社会实践与科技竞赛二、三等奖各1项(第二指导教师),指导的1名硕士研究生的学位论文被评为江苏省优秀硕士学位论文,1名本科生的毕业论文被评为江苏省优秀本科毕业设计(论文)一等奖,2名获评三等奖。1篇论文获得镇江市优秀科技论文二等奖、2篇获三等奖。2011年被评为江苏科技大学教学名师。 研究方向 (1)化工水污染控制技术;(2)环境功能材料及材料化学;(3)环境生物技术。 教育经历 (1)工学博士, 2000.03~2003.03,华东理工大学(环境工程专业);(2)工学硕士, 1994.09~1997.07,华东理工大学(环境化工专业);(3)工学学士, 1985.09~1989.07,华东理工大学(环境工程专业)(1985.09~87.03 在辽宁石油化工大学工业分析专业学习);(4)2004.9-2007.7,东南大学环境科学与工程学科博士后,2007.7出站;(5)2010.06~2010.08,在澳大利亚拉筹伯大学访问学习。 课程教学 (1)水污染控制工程(本科生);(2)污染控制工程(研究生)。 科研项目 (1) 镇江市水体污染TMDL计划二期水质监测,镇江新鸿智慧水务技术有限公司委托项目,(主持人,在研,2019.3-,经费70万元);(2) 镇江市智慧海绵TMDL项目水质检测及分析,镇江市水业总公司委托项目,(主持人,在研,2017.2-2018.9,经费28.7万元);(3) 一种新型分子印迹固相萃取填料的合成及其在大气灰霾颗粒物中全氟化合物检测中的应用,张家港市科技支撑计划(社会发展)项目(ZKS1510)(主持人,2016.1-2017.12,经费10万元);(4)寒山湖度假村生活污水一体化处理装置研发,台州海百纳船舶设备科技有限公司委托项目,(主持人,2016-2017,合同额20万元);(5)镇江市海绵设施水质监测及分析,镇江市水业总公司委托项目,(主持人,2017.5-2017.12,经费29.5万元);(6) 固定化微生物修复多环芳烃污染水体的研究,江苏省自然科学基金项目(BK2005057)(主持人,2005.7~2007.12,已结题并鉴定,经费7万元);(7)修复多环芳烃复合污染水体的高效菌群构建及降解特性,江苏省自然科学基金项目(BK2009726)(主持人,2009.7~2011.12,已结题,经费5万元);(8)腐植酸/累托石微球异位修复重金属-多环芳烃污染河水,江苏省高校自然科学研究计划面上项目(08KJB610002)(主持人,2008.9~2011.5,已结题,经费3万元);(9)移动风险源性饮用水突发污染控制技术开发及示范,863计划子课题(2008AA06A412)(主持人,已结题,经费30万元);(10) 化纤废水处理工艺优化及现场调试,张家港锦丰轧花剥绒有限公司委托项目(主持人,2010.3~2011.3,已结题,经费20万元);(11) 多环芳烃污染水体的生物强化修复技术研究,江苏省高校自然科学研究计划项目(主持人,已结题,经费12万元);(12)镇江城市雨水径流污染负荷及其分布研究,镇江市水业总公司委托项目(主持人,已结题,经费45万元);(13)TiO2/活性炭吸附及光催化降解水中六氯苯的研究,江苏省高校自然科学基础研究项目(07KJD610058)(第二,已结题);(14)盐胁迫下好氧颗粒污泥微生物生态响应的分子机制研究,江苏省自然科学基金项目(第二,结题,经费20万元);(15)碳纳米管负载二氧化铈/H2O2体系光催化降解酸性橙Ⅱ的研究,江苏省普通高校研究生科研创新计划资助项目(CXZZ13_0723),2013-2015(指导教师,已结题)。(16)CoO/CNTs复合材料的设计及其光催化降解抗生素的性能研究,江苏省普通高校研究生科研创新计划资助项目(KYCX18_2340),2018-2019 (指导教师,在研)(主持人 李铭洋)。 专利成果 [1] 唐玉斌,陈芳艳,吕华,王新刚,吕锡武,张东等. 基于累托石的微球吸附剂的制备方法. 201110237325.8(公开)[2] 陈芳艳,唐玉斌,叶伟. 聚丙烯酸-腐植酸-累托石复合吸附剂的制备方法. 201210125575.7(已授权)[3]曹福, 向梅, 唐玉斌, 田园, 陈广春. 聚磷氯化铝铁混凝剂及其制备方法和应用. 200910213050.7(已授权)[4] 陈芳艳,杨占,唐玉斌,王新刚,陈海丰. 一种特异性吸附DEHP的硅胶表面分子印迹聚合物及其制备方法与应用. 201510246796.3 (已授权)[4] 郭峰,唐玉斌,施伟龙,任红吉. 一种赤泥基复合光催化剂的制备方法和应用. ZL 2019 1 0347426.7(已授权) 科研团队 1 在读研究生 2 已毕业研究生 3 科研团队 论文著作 代表性论著(标注*的为通讯作者)[1] Yuming Sun , Yubin Tang *, Fangyan Chen *, Ping Huang , Wenqian Sun , Yanhua Song. Amorphous FeOOH shell decorated Bi2O4 for the boosted photocatalytic degradation of tetracycline under visible irradiation. Journal of Environmental Chemical Engineering, 2024, 12: 112181.  (IF: 7.7, Q2 )[2] Fang Xu,Wuxiang Zhang*, Xingang Wang, Hongliang Dai, Chao Yu, Xingyu Liu, Zihan Li, Ming Zhang, Dengxin Yan, Fangyan Chen, Yubin Tang*. Multi-level FeCo/N-doped carbon nanosheet for peroxymonosulfate oxidation and sterilization inactivation, Journal of colloid and interface science, 2024, 661,  840-852. (IF: 9.9, Q1)[3] ShenggengZhao, Jiale Jiang, Chengfang Zhang, Fangyan Chen*, Yanhua Song, Yubin Tang*.Construction of a novel double S-scheme heterojunction CeO2/g-C3N4/Bi2O4 for significantly boosted degradation of tetracycline: Insight into the dual charge transfer mode. Chemical Engineering Journal,2024, 479:147333  ( IF: 15.1, Q1  TOP Journal) [4] Ping Huang , Fangyan Chen*, Yubin Tang*, Wenqian Sun , Yanhua Song , Yuming Sun. Zn2SnO4 decorated SnS2 flower-like ball for enhanced photocatalytic degradation of tetracycline under visible irradiation: The role of Zn2SnO4 in photoinduced electrons transfer. Materials Science in Semiconductor Processing, 2024,173:108182  (IF: 4.1, Q3)[5] Wenqian Sun , Fangyan Chen *, Ping Huang , Yuming Sun , Yanhua Song , Yubin Tang *. The significantly boosted photodegradation of tetracycline over a novel hierarchical 0D/3D S-scheme heterojunction ZnSnO3/CdIn2S4. Journal of Environmental Chemical Engineering,  2023, 11:111293  (IF: 7.968, Q2 )[6] Jiale Jiang, Shenggeng Zhao, Chengfang Zhang , Fangyan Chen*, Yanhua Song , Yubin Tang*. Construction of S-scheme heterojunction WO3/Bi2O4 with significantly enhanced visible-light-driven activity for degradation of tetracycline. Journal of Environmental Chemical Engineering, 2023,11: 110685  (IF: 7.968, Q2 )[7] Ji Hua, Fang-yan Chen *, Yu-bin Tang *, Sheng-geng Zhao, Jie-tong Yang, Rui Wu. Synthesis of type II heterojunction 2D/3D Bi2S3/MIL-88(A) with enhanced photocatalytic activity under visible-light irradiation. Journal of Physics and Chemistry of Solids, 2023, 177: 111299 (IF: 4.383,Q3)[8] Shenggeng Zhao , Fangyan Chen*, Yanhua Song , Ji Hua , Rui Wu , Jietong Yang , Yubin Tang*. Boosted degradation of tetracycline over a novel hierarchical 2D/1D S-scheme heterojunction Bi2O4@SnS under visible light irradiation. Journal of Environmental Chemical Engineering, 2023, 11 :109262 (IF: 7.968, Q2 )[9] Jietong Yang , Fangyan Chen *, Rui Wu , Shenggeng Zhao , Ji Hua , Yanhua Song , Yubin Tang *. Boosted degradation of tetracycline over a novel Z-scheme DyVO4/MIL-53(Fe) heterojunction with surface oxygen vacancy under visible light irradiation. Materials Science in Semiconductor Processing, 2023, 162: 107510 (IF: 4.1, Q3)    [10] Zhiqiang Zhu , Fangyan Chen *, Shenggeng Zhao , Yanhua Song , Yubin Tang *. Construction of hierarchical core-shell Z-scheme heterojunction FeVO4@ZnIn2S4 for boosted photocatalytic degradation of tetracycline. Materials Science in Semiconductor Processing,  2023, 159: 107373 (IF: 4.1, Q3)[11] Rui Wu , Fangyan Chen *, Jietong Yang , Yanhua Song , Ji Hua , Shenggeng Zhao , Yubin Tang *. A novel core-shell Z-scheme heterojunction In2O3@BiFeO3 with broad spectrum response for enhanced photocatalytic degradation of tetracycline. Materials Chemistry and Physics, 2023, 301: 127554 (IF: 4.6 , Q3)[12] Jinxin Xie, Yubin Tang *, Fangyan Chen *, Chen Chen Hao. A visible light responsive Bi2S3/MIL-53(Fe) heterojunction with enhanced photocatalytic activity for degradation of tetracycline. Journal of Physics and Chemistry of Solids, 2023, 181:111551 (IF: 4.383,Q3)[13] Chen-chen Hao, Fang-yan Chen*, Kun Bian, Yu-bin Tang* and Wei-long Shi.Spindle-like MIL101(Fe) decorated with Bi2O3 nanoparticles for enhanced degradation of chlortetracycline under visible-light irradiation. Beilstein Journal of Nanotechnology, 2022, 13, 1038-1050. (IF: 3.272, Q3)[14] Lin Xie, Fang-yan Chen*,Yu-bin Tang* and Chen-Chen Hao. Tetracycline degradation by persulfate activated with novel magnetic composite ferrocene/chitosan@Fe3O4. Journal of Chemical Technology and Biotechnology, 2022, 97: 2766–2774 (IF: 3.7, Q3)[15] Yong-ming Fu, Yu-bin Tang*, Wei-long Shi,* Fang-yan Chen, Feng Guo, Chen-chen Hao. Preparation of rambutan-shaped hollow ZnFe2O4 sphere photocatalyst for the degradation of tetracycline by visible-light photocatalytic persulfate activation. Materials Chemistry and Physics, 2022, 286, 126176. (SCI, IF: 4.78, Q3)[16] WL Shi, C C Hao, Y M Fu, F Guo*, Y B Tang* and X Yan. Enhancement of synergistic effect photocatalytic/persulfate activation for degradation of antibiotics by the combination of photo-induced electrons and carbon dots. Chemical Engineering Journal, 2022,433: 133741. (IF: 13.3, Q1, Top Journal)[17] Hao-chen Gu, Yu-bin Tang*, Fang-yan Chen*, Ming-yang Li and Wei-long Shi. Preparation of a novel composite g-C3N4/TiO2/NiWO4 with enhanced photocatalytic activity toward the degradation of rhodamine B. Journal of Materials Science- Materials in Electronics, 2022, 33: 14581–14592 (IF: 2.78, Q4)[18] Sheng-geng Zhao, Fang-yan Chen*, Chen-chen Hao, Yu-bin Tang* and Wei-long Shi. Bi2O4 decorated with SnO2 nanoparticles as direct Z-scheme heterojunction for enhanced degradation of tetracycline under visible light irradiation. Journal of Chemical Technology and Biotechnology, 2022, 97:2466-2476 (IF: 3.7, Q3)[19] Chen-chen Hao , Fang-yan Chen**, Wei-long Shi,* , Yu-bin Tang , Feng Guo , Kun Bian , Lin Xie. Construction of core-shell g-C3N4@ZnIn2S4 hierarchical hollow heterostructure for enhanced photocatalytic activity under visible light irradiation. Materials Chemistry and Physics, 2022, 285, 126137 (SCI, IF: 4.78, Q3)[20] Fangyan Chen*, Kun Bian, Hongshuang Li, Yubin Tang*, Chenchen Hao, Weilong Shi. A novel CeO2/MIL101(Fe) heterojunction for enhanced photocatalytic degradation of tetracycline under visible-light irradiation. Journal of Chemical Technology and Biotechnology, 2022, 97, 1884-1892 (SCI IF: 3.17)[21] Lei Cheng, Fang-yan Chen*, Zhi-qiang Zhu, Yu-bin Tang*, et al. Vacancy-modified g-C3N4 nanosheets via one-step thermal polymerization of thiosemicarbazide precursor for visible-light-driven photocatalytic activity. Materials Chemistry and Physics, 2022, 275, 125192 (SCI, IF: 4.094)[22] Min-keng He, Jin Zhang, Fang-yan Chen*, Ke-ke Shu, Yu-bin Tang**. One-Pot Fabrication of K-Doped g-C3N4/SiO2 Composite with Enhanced Photocatalytic Activity for Degradation of Tetracycline. J. Chem. Soc. Pak., 2021, 43, 124-134[23] Fang-Yan Chen*, Lei Cheng,Yu-Bin Tang*, et al. Construction of Z-scheme heterojunction g-C3N4/CQDs/InVO4 with broad-spectrum response for efficient rhodamine B degradation and H2 evolution under visible light. Journal of Chemical Technology and Biotechnology, 2021, 96: 3074-3083. (SCI, IF: 3.17)[24] Zhengdi Wu , Yubin Tang∗, Weiwei Li, Zhimin Qiang, Huiyu Dong∗. Formation control of bromate and trihalomethanes during ozonation of bromide-containing water with chemical addition: Hydrogen peroxide or ammonia? Journal of Environmental Sciences, 2021,110: 111-118. (IF: 6.8, Q2)[25] Chen-chen Hao, Yu-bin Tang*, Wei-long Shi,* Fang-yan Chen, Feng Guo.Facile solvothermal synthesis of a Z-Scheme 0D/3D CeO2/ZnIn2S4 heterojunction with enhanced photocatalytic performance under visible light irradiation. Chemical Engineering Journal,2021,409,128168 (IF: 13.3, Q1, Top Journal)[26] Zhengdi Wu, Yubin Tang*, Xiangjuan Yuan, Zhimi Qiang. Reduction of bromate by zero valent iron (ZVI) enhances formation of brominated disinfection by-products during chlorination. Chemosphere, 2021, 268, 129340 (IF: 5.778, Top Journal)[27] Weilong Shi, Mingyang Li, Xiliu Huang, Hongji Ren, Feng Guo, Yubin Tang*, Changyu Lu*. Construction of CuBi2O4/Bi2MoO6 p-n heterojunction with nanosheets-onmicrorods structure for improved photocatalytic activity towards broadspectrum antibiotics degradation. Chemical Engineering Journal,2020,394,15009 (Impact factor: 13.3, Q1, Top Journal)[28] Weilong Shi, Hongji Ren, Mingyang Li, Keke Shu,Yusong Xu, Chao Yan* and Yubin Tang*. Tetracycline removal from aqueous solution by visible-light-driven photocatalytic degradation with low cost red mud wastes. Chemical Engineering Journal, 2020, 382, 122876 (Impact factor: 13.3, Top Journal)[29] Fang-yan Chen*, Xi Zhang, Yu-bin Tang*, Xin-gang Wang, Ke-ke Shu. Facile and rapid synthesis of a novel spindle-like heterojunction BiVO4 showing enhanced visible-light-driven photoactivity. RSC Advances, 2020, 10: 5234-5240. (Impact factor: 3.049)[30] Keke Shu, Fangyan Chen*, Weilong Shi, Feng Guo,YubinTang,Hongji Ren,Mingyang Li. Construction of DyVO4/nitrogen deficient g-C3N4 composite for enhanced visible-light photocatalytic activity for tetracycline degradation. Materials Research Bulletin, 2020, 124: 110766.[31] Hong-ji Ren, Yu-bin Tang*, Wei-long Shi, Fang-yan Chen, et al. Red mud modified with graphene oxide for enhanced visible-light-driven photocatalytic performance towards the degradation of antibiotics. New Journal of Chemistry, 2019, 43,19172-19179(Impact factor: 3.069)[32] Chun Liu, Yu-bin Tang*, Peng-we Huo, Fang-yan Chen. Novel AgCl/CNTs/g-C3N4 nanocomposite with high photocatalytic and antibacterial activity. Materials Letters,2019, 257, 126708. (Impact factor: 3.019)[33] Xiao Zhu, Yu-bin Tang,* Fang-yan Chen*, Yu Shi, Xin-gang Wang. Synthesis of magnetic rectorite/humic acid/chitosan composite for removal of heavy metal ions from water. Desalination and Water Treatment, 2019,163, 155-165.(SCI, 2018 IF: 1.234)[34] Yu Shi, Yu-bin Tang,*, Fang-yan Chen*, Wei-long Shi, Feng Guo, Xin-gang Wang. Enhanced visible-light-driven photocatalytic activity of Ag2WO4/g-C3N4 heterojunction photocatalysts for tetracycline degradation. Desalination and Water Treatment, 2019,170:287-296. (SCI, 2018 IF: 1.234)[35] Weilong Shi, Mingyang Li, Hongji Ren, Feng Guo, Xiliu Huang, Yu Shi and Yubin Tang*. Construction of a 0D/1D composite based on Au nanoparticles/CuBi2O4 microrods for efficient visible-light-driven photocatalytic activity. Beilstein Journal of Nanotechnology, 2019, 10, 1360-1367.(SCI, 2018 IF 2.97)[36] Xi Zhang, Fang-yan Chen, Yu-bin Tang*, Yi-ming Liu, Xin-gang Wang. A rapid microwave synthesis of nanoscale BiVO4/Bi2O3@SiO2 with large specific surface area and excellent visible-light-driven activity. Desalination and Water Treatment, 2019, 152, 99-107. (SCI, 2018 IF: 1.234)[37] Fangyan Chen*, Yiming Liu, Xi Zhang, Lina He and Yubin Tang. Inorganic-Framework Molecularly Imprinted CdS/TiO2 for Selectively Photocatalytic Degradation of Di (2-ethylhexyl) phthalate. J. Chem. Soc. Pak., 2019, 41, 308-318. (SCI)[38] Ming-yang Li, Yu-bin Tang*, Wei-long Shi, Fang-yan Chen, Yu Shi and Hao-chen Gu. Design of visible-light -response core-shell Fe2O3/CuBi2O4 heterojunctions with enhanced photocatalytic activity towards the degradation of tetracycline: Z-scheme photocatalytic mechanism insight. Inorganic Chemistry Frontiers, 2018, 5, 3148-3154 (SCI, 2017-2018 IF: 5.106)[39] Yu-bin Tang, Hu-jun Yang, Fang-yan Chen, Xin-gang Wang. Preparation, characterization of nanocomposites plasmonic photocatalyst C@ (Fe3O4–halloysite nanotubes)–Ag/AgCl and its photocatalytic activity. Desalination and Water Treatment, 2018, 110, 144-153 (SCI, 2016-2017 IF: 1.631)[40] Jie Xu, Bifu Luo, Wei Gu, Yaping Jian, Feilong Wu, Yubin Tang* and Hao Shen*. Fabrication of In2S3/NaTaO3 composite for enhancing the photocatalytic activity toward the degradation of tetracycline. New Journal of Chemistry, 2018, 42, 5052-5058(SCI, 2016-2017 IF: 3.269)[41] D Wen, Z D Wu, Y B Tang, M K Li∗, Z M Qiang*. Accelerated degradation of sulfamethazine in water by VUV/UV photo-Fenton process: Impact of sulfamethazine concentration on reaction mechanism. Journal of Hazardous Materials, 2018, 344: 1181-1187.[42] Chen, Fangyan,Yang, Zhan,Tang, Yubin,Wang, Xingang. Selective Extraction and Determination of Di(2-ethylhexyl) Phthalate in Aqueous Solution by HPLC Coupled with Molecularly Imprinted Solid-phase Extraction. Iran. J. Chem. Chem. Eng., 2017, 36(3): 127-136(SCI)[43] Wen Tao, Tang Yu-bin*, Chen Fang-yan, et al. Preparation, Characterization of a Ceria Loaded Carbon Nanotubes Nanocomposites Photocatalyst and Degradation of Azo Dye Acid Orange 7. Archives of Environmental Protection, 2016,42(2):12-19. (SCI, 2016-2017 IF: 0.708 )[44] Yuanyuan Feng, Qiang Li*, Guoping Kang, Gengsheng Ji, Yubin Tang*, and Jie Tu. Aqueous two-phase/reversemicelle continuous process for recycling and simultaneous purification of polar ionic liquid from enzymatic hydrolysate. Journal of Chemical Technology and Biotechnology, 2016, 91: 394-399. (SCI, 2016-2017 IF: 3.135)[45] Fanpeng Cai, Yubin Tang*, Fangyan Chen, et al. Enhanced Visible-light-driven Photocatalytic Degradation of Tetracycline by Cr3+ Doping SrTiO3 Cubic Nanoparticles. RSC Advances, 2015, 5: 21290-21296. (SCI, 2015-2016 IF: 3.289)[46] Zhan Yang, Fangyan Chen, Yubin Tang and Shaoli Li. Selective adsorption of Di(2-ethylhexyl)Phthalate by Surface Imprinted Polymers with Modified Silica Gel as Functional Support. J. Chem. Soc. Pak., 2015, 37(5): 939-949 (SCI)[47] Fanpeng Cai,Yadong Meng, Bo Hu, Yubing Tang, et al. Microwave-assisted synthesis of La–Cr co-doped SrTiO3 nano-particles and their use in photocatalytic hydrogen evolution under visible light. RSC Adv., 2015, 5, 57354–57360(SCI, 2015-2016 IF: 3.289)[48] Yaoyao Wang, Hong Xie, Wei Zhang, Yubin Tang, Fangyan Chen. Preparation and photocatalytic activity of Fe-Ce-N tri-doped TiO2 catalysts. Advanced Materials Research, 2013, 750-752:1276-1282 (EI)[49] Tang Yu-bin, Liu Qiang, Chen Fang-yan. Preparation and characterization of activated carbon from waste ramulus mori. Chemical Engineering Journal,2012, 203:19–24. (SCI, EI)[50] Tang Yu-bin, Yang Xu, Chen Fang-yan, et al. Screening, Identification and Degrading Gene Assignment of a Chrysene-degrading Strain. African Journal of Biotechnology, 2011, 10 (34): 6549~6557. (SCI)[51] Yubin Tang, Fang Yu, Fangyan Chen. Research on Adsorption of Pb2+ on to Microspheres Prepared by Rectorite and Humic acid. Advanced Materials Research, 2011, 233-235: 1419-1422. (EI)[52] Cai Feng, Chen Fang-yan and Tang Yu-bin*. Isolation, Identification of a Halotolerant Acid Red B Degrading Strain and Its Decolorization Performance. APCBEE Procedia, 2014, 09: 131-139[53] Tang Yu-bin, Chen Fang-yan, Ye Wei, et al. A Novel Rectorite-based Composite Adsorbent for Removing Heavy Metal Ions and PAHs. Journal of Chemical and Pharmaceutical Research, 2014, 6(8): 102-111. (EI)[54] Yi-feng Lu, Yu-bin Tang*, Yong-qiang Zhu, et al. Synthesis of BiVO4 by Ionic Liquid-assisted Hydrothermal Method: Effect of Ionic Liquid on Photocatalytic Performance of BiVO4. EEST Part A. Energy Science and Research, 2014, 32(5): 3873-3882 (EI)[55] Hai-long Zhu, Yu-bin Tang*, Fang-yan Chen. Preparation of Waste Ramulus mori-based Adsorbent and Its Adsorption Performance for Cationic Dyes. EEST Part A. Energy Science and Research, 2014, 32(6): 7495-7506 (EI)[56] Tang Yubin, Chen Fangyan, et al. Adsorption of Pb2+, Cu2+ and Zn2+ Ions on to Waste Fluidized Catalytic Cracking (FCC) Catalyst. Adsorption Science & Technology, 1998, 16 (8): 595-606 (EI) [57] Yu-bin Tang, Feng Cai, Fang-yan Chen. Isolation, identification and decolorizing gene assignment of an acid red B decolorizing bacterium. EEST Part A. Energy Science and Research, 2014, 32(1): 489-500 (EI)[58] Tang Yu-bin, LÜ Hua, Chen Fang-yan. Adsorption of Acid OrangeⅡin Water on to Microspheres Prepared by Rectorite and Polyvinyl Alcohol.Proceedings of the 2007 International Symposium on Environmental Science & Technology(Vol.1), Beijing, China, November 13-16, 2007. 891-899 (ISBN978-7-03-020403-5)(ISTP)[59] Tang Yu-bin, Yu Fang, Chen Fang-yan. Kinetics and Thermodynamics of Adsorption of Hexavalent Chromium from Aqueous Solution Using Microspheres Prepared by Rectorite and Humic Acid. Proceedings of the 2009 International Symposium on Environmental Science and Technology(Vol.2), Shanghai, China, June 2-5,2009.1337-1342(ISBN978-7-03-024459-8)(ISTP)[60] Fang-yan Chen, Shu-pin Ba, Yu-bin Tang, Xin-gang Wang.Preparation and Characterization of Nonylphenol Magnetic Molecularly Imprinted Polymer. J. Chem. Soc. Pak., 2015, 37(6): 1154-1163.[61] Nannan Zhen, Yubin Tang*, Wei Teng*. Preparation of organic-phased TiO2 nanotube array electrode with higher quantum efficiency and its catalytic degradation on Methylene blue.5th International Conference on Advanced Engineering Materials and Technology (AEMT 2015) . Published by Atlantis Press, 2015.[62] Fangyan Chen, Wei Ye, Yubin Tang, Adsorption of heavy metals by sodium polyacrylate-humic acid-rectorite composite as a novel adsorbent. Advanced Materials Research, 2012, 550-553: 2428-2435[63] Q. Li, G S Ji, Y B Tang, X D Gu, J J Fei, H Q Jiang. Ultrasound-assisted compatible in situ hydrolysis of sugarcane bagasse in cellulase-aqueous–N-methylmorpholine-N-oxide systemfor improved saccharification. Bioresource Technology, 2012, 107: 251-257.[64] CHEN Fangyan, ZHU Jiao,TANG Yubin,YIN Lei and YANG Siyun. Microwave -Assisted Preparation of TiO2/Activated-Carbon. Progress in Environmental Science and Technology(vol.2, part B): 1641- 1645— Proceedings of the 2009 International Symposium on Environmental Science and Technology Shanghai, 2009[65]姜睿玲, 杨统一, 唐玉斌*, 等. 多环芳烃污染对桑园土壤微生物结构及种群多样性的影响. 中国环境科学,2012,32(9):1309-1313[66]唐玉斌,王晓朝,陈芳艳,等. 芴降解优势菌的筛选鉴定及降解特性研究. 中国环境科学,2010,30(8): 1086-1090[67]唐玉斌, 王郁, 等. 多环芳烃蒽,屈在水体中的光解动力学模拟研究.中国环境科学, 1999,19(3):262-265[68]姜睿玲, 杨统一, 陈芳艳, 唐玉斌*. 桑园土壤微生物群落功能多样性对PAHs污染的响应. 生态与农村环境学报,2012, 28(4):439-444[69]唐玉斌,马姗姗,王晓朝,等. 一株芘的高效降解菌的选育及其降解性能研究. 环境工程学报,2011,5(1):48-54[70]杨旭,陈芳艳,唐玉斌*. 修复PAHs复合污染体系的高效菌群构建及降解特性. 环境工程学报,2014,8(1):360-365[71]唐玉斌, 孙常宇, 陈芳艳, 等. 木糖氧化无色杆菌及混合菌群对多环芳烃的降解特性. 环境工程学报,2010,4(7):1664-1668[72]唐玉斌, 郁昉, 陈芳艳. 累托石/腐殖酸微球的制备及其对Cr(Ⅵ)的吸附研究. 环境工程学报,2009,3(6):1054-1058[73]唐玉斌,王晓朝,陈芳艳,等. 一株芴降解菌的分离鉴定及其对多环芳烃的降解广谱性研究. 环境工程学报,2011,5(2):467-471[74]唐玉斌,孙常宇,陈芳艳,等.一株屈高效降解菌的分离鉴定及其降解特性. 微生物学通报,2009,36(4):593-597[75]唐玉斌,梁林林,陈芳艳,等. 蒽的高效降解菌的固定化小球的制备及其降解特性. 环境工程学报,2007,1(5):31-35[76]郑佩,陈芳艳,唐玉斌*,等. 固定化菌藻微球的制备、表征及其对富营养化湖水的修复. 环境工程学报,2014, 8(5):1999-2005[77]温涛,唐玉斌*,陈芳艳,等. CNTs-CeO2/H2O2复合光催化氧化体系降解水中酸性橙II. 环境工程学报,2015,9(4):1789-1796[78]莫冰玉,唐玉斌*,陈芳艳,等. 磁性活性炭的制备及其对水中甲基橙的吸附. 环境工程学报,2015,9(4):1863-1868[79]唐玉斌,陈芳艳,张永锋. 水污染控制工程. 哈尔滨:哈尔滨工业大学出版社,2006 教学随笔 获奖动态 (1)江苏省环境科学学会优秀环境科技工作者。(2018)(2)江苏科技大学2016/2017学年优秀共产党员。(2017)(3)“Chem+”复合型创新人才培养模式的探索与实践.江苏省教学成果一等奖,5/10,2017(4)船舶与海工类人才培养模式动态优化调整机制的构建与实践.江苏省教学成果二等奖,5/9,2017(5)复合创新型研究生“三三三”培养模式的探索与实践. 江苏省研究生教育改革成果二等奖,5/10,2017(6)基于长效动态质量评价反馈的人才培养模式优化调整机制研究与实践,获江苏科技大学教学成果特等奖,2/16,2016(7)江苏科技大学教学名师。(2011)(8)彰显创新教育和实践育人特色的理工科实践教学体系的构建与实践,获江苏科技大学教学成果一等奖,1/8。(2010)(9)环境工程新专业建设的探索与实践,获江苏科技大学教学成果三等奖,1/7。(2004)(10)江苏科技大学教学优秀教师。(2007)(11)师德建设先进个人。(2004)(12)南徐学院教学质量一等奖(三次)。(13)主编的《水污染控制工程》被评为江苏科技大学精品教材。(2007)(14)大学生科技创新活动优秀指导教师。(2009,2011)(15)指导的1名硕士研究生的学位论文被评为江苏省优秀硕士学位论文(郝晨晨,2023);指导的7名研究生的学位论文被评为江苏科技大学优秀硕士论文。(2008吕华;2009郁昉;2011杨旭;2012姜睿玲; 2020李铭洋、刘淳;2022郝晨晨)。(16)指导的1名本科生论文被评为江苏省优秀毕业设计(论文)一等奖,2名获三等奖(一等奖:吴铮笛;三等奖:蔡璐璐,巴淑萍)。(17)指导的1名学生的论文被评为首届江苏省大学生科技创新论文大赛特等奖(孙常宇)。(18)“Preparation and Characterization of Activated Carbon from Waste Ramulus Mori”获2013年镇江市优秀科技论文二等奖(1/3)。 教学随笔 教学,需要真实的态度;育人,需要大爱情怀。一所好的大学,需不断地砥砺风骨,涵养人文;需回归教学本源,重建大学精神!

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