天津科技大学化工学院精细化学品智能设计与污染控制技术科研团队2021年研究生招生
团队名称:精细化学品智能设计与污染控制技术科研团队
团队成员:
吴 燕 (1976-),博士,教授,博士生导师
武文洁(1963-), 硕士,教授,硕士生导师
彭 啸 (1986-),博士,讲师,硕士生导师
闫方友(1985-),博士,副教授,硕士生导师。
琚成功(1989-),博士,讲师
研究方向:以精细化学品制备、天然产物提取、材料构效关系计算、固废资源化利用为优势和特色,应用化学合成技术、高效吸附技术、分子膜阻蒸发技术、污染控制技术、现代分离科学与技术,开展资源综合利用所涉及的科学问题与关键技术研究,推动我国环境资源循环综合利用。
主要研究方向如下:
1. 精细化学品制备及应用技术
2. 界面分子膜制备及阻蒸发应用技术
3. 高效吸附材料的研发与应用技术
4. 天然产物提取技术
5. 固废的无害化处理技术
6. 分子智能设计与材料构效关系
7. 化工过程人工智能
研究生招生:可招收化学工程与技术专业学术型博士/硕士研究生,化学工程专业型硕士研究生,化学工程领域工程硕士研究生。要求具备化工相关专业本科背景,研究生初试科目为政治、英语、数学、专业课。英语六级通过者优先。
研究生待遇:硕士研究生每月发放600-1000元助学金。学校设国家奖学金每年2万元、学术之星奖学金2000元、学业奖学金1.2万、新生奖学金8000元等多种奖学金及助学金。
联系人:
彭老师 pengxiao@tust.edu.cn
琚老师 juchenggong@tust.edu.cn
电话 022 60601457
主要研究成果:
1. 2015-2020代表性论文、著作
1)Fangming Yang, Yan Wu*, Xiting Fang,Lijuan Ma. Experimental and theoretical study on the behaviour of a pickling solution: The role of ferrous ions,Journal of Cleaner Production, 2020, 243. (SCI,IF7.28)
2)Wang A , Peng X , Shi N , Yan Wu*. Study on the preparation of the hierarchical porous CX-TiO 2 composites and their selective degradation of PHE solubilized in soil washing eluent[J]. Chemosphere, 2020,260.(SCI,IF=5.778)
3)Kairu Xue, Chenggong Ju, Mao Yang, Na Li, Yuzhou Peng, Xiao Peng, Yan Wu*. Non-sintered dredged sediments artificial cobblestones: Preparation, structure and properties[J]. Construction and Building Materials, 2020, 257:119560.(SCI, IF4.419)
4)Mao Yang, Chenggong Ju, Kairu Xue, Yuzhou Peng, Hong Han, Qianqian Wan, Xiao Peng, Yan Wu*. Environmental-friendly Non-sintered Permeable Bricks: Preparation from Wrap-shell Lightweight Aggregates of Dredged Sediments and Its Performance, 2020. (SCI,IF4.419)
5)Lingling Pang,Yan Wu*,Yanfang Pan,Zhaojun Ban,Li Li**,Xihong Li. Insights into exogenous melatonin associated with phenylalanine metabolism in postharvest strawberry,Postharvest Biology and Technology,2020,168.(SCI,IF 4.303)
6)Hongmei Sun, Chenggong Ju, Yiwei Zhao, Chenyang Wang, Xiao Peng, Yan Wu*. Preparation of SiO2@ZIF-67/CNTs and Research on Its Adsorption Performance at Low-Temperature. Colloids and Surfaces A:Physicochemical and Engineering Aspects,2020,603.(SCI,IF 3.99)
7)Chenggong Ju, Xinyue Li, Yang Guang, Chencheng Yuan, Sergey Semin, Yaqing Feng*, Theo Rasing, Jialiang Xu*. Polymorph Dependent Linear and Nonlinear Optical Properties of Naphthalenyl Functionalized Fluorenones. Dyes and Pigments, 2019, 166: 272-282. (SCI, IF 4.61)
8)Chenggong Ju, Yongzhu Zhou, Sergey Semin, Guang Yang, Paul Tinnemans, Yulong Duan, Yaqing Feng*, Theo Rasing, Jialiang Xu*. Solvent dependent linear and nonlinear optical properties of triphenylamine unit incorporated difluoroboron β-diketonate complexes. Dyes and Pigments, 2019, 162: 776-785. (SCI, IF 4.61)
9)Yan Wu*, Fangming Yang, Xiting Fang. The stability performances of epoxy resin-based monolayers onresisting disruption of temperature and wind,Colloids and Surfaces A: Physicochemical, 2015, 391: 85-89. (SCI,IF 2.832)
10)Yan Wu*, Yin Liu, Jiuchun Han & Wenjiang Wang. Study on Convective Drying Characteristics of Dredged Sludge from Dian Lake, Separation Science and Technology, 2015,50:11, 1731-1739. (SCI,IF 1.171)
11)Yulong Duan#, Chenggong Ju#, Guang Yang, Eduard Fron, Eduardo Coutino-Gonzalez, Sergey Semin, Chencheng Fan, R.S. Balok, Jonathan Cremers, Paul Tinnemans, Yaqing Feng*, Yuliang Li, Johan Hofkens, Alan E. Rowan, Theo Rasing, Jialiang Xu*. Aggregation Induced Enhancement of Linear and Nonlinear Optical Emission from a Hexaphenylene Derivative. Advanced Functional Matererials, 2016, 26(48): 8968-8977. (SCI, IF 16.83)
12)Shuying Zhang; Qingzhu Jia; Fangyou Yan*; Shuqian Xia*; Qiang Wang; Evaluating the properties of ionic liquid at variable temperatures and pressures by quantitative structure–property relationship (QSPR), Chemical Engineering Science, 2021, 231: 116326. (SCI, IF 3.871)
13)Fangyou Yan, Yajuan Shi, Ying Wang, Qingzhu Jia, Qiang Wang*, Shuqian Xia*. QSPR models for the properties of ionic liquids at variable temperatures based on norm descriptors, Chemical Engineering Science 2020, 217: 115540 (SCI, IF 3.871)
14)Fangyou Yan, Tingting Liu, Qingzhu Jia, Qiang Wang*. Multiple toxicity endpoint–structure relationships for substituted phenols and anilines, Science of the Total Environment 2019, 663: 560-567 (SCI,IF=6.551)
15)Fangyou Yan, Tian Lan, Xue Yan, Qingzhu Jia, Qiang Wang*. Norm index-based QSTR model to predict the eco-toxicity of ionic liquids towards Leukemia rat cell line, Chemosphere 2019, 234: 116-122 (SCI,IF=5.778)
16)Fangyou Yan, Wensi He, Qingzhu Jia, Shuqian Xia, and Qiang Wang*. Prediction of ionic liquids viscosity at variable temperatures and pressures, Chemical Engineering Science 2018, 184: 134-140 (SCI, IF 3.871)
17)Wensi He, Fangyou Yan*, Qing zhu Jia, Shuqian Xia, and Qiang Wang. QSAR models for describing the toxicological effects of ILs against Staphylococcus aureus based on norm indexes, Chemosphere 2018, 195: 831-838 (SCI,IF=5.778)
18)Fangyou Yan, Wensi He, Qingzhu Jia, Shuqian Xia, and Qiang Wang*. QSAR models for describing the toxicological effects of ILs against Candida albicans based on norm indexes, Chemosphere 2018, 201: 417-424 (SCI,IF=5.778)
19)Fangyou Yan, Hao Wu, Wei Li, Jinli Zhang*. Simultaneous optimization of heat-integrated water networks by a nonlinear program, Chemical Engineering Science 2016, 140: 76–89. (SCI, IF 3.871)
20)Fangyou Yan , Qiaoyan Shang, Shuqian Xia*, Qiang Wang*, and Peisheng Ma. Topological Study on the Toxicity of Ionic Liquids on Vibrio fischeri by the Quantitative Structure−Activity Relationship Method, Journal of Hazardous Materials 2015, 286, 410-415. (SCI, IF 9.038)
21)Fangyou Yan, Ze Yan, Wei Li, Jinli Zhang*. Inflection Point Method (IPM): A New Method for Single-Contaminant Industrial Water Networks Design, Chemical Engineering Science 2015, 126: 529– 542. (SCI, IF 3.871)
22)Jisi Zhao, Wenjie Wu*,Zhangyong Hong*, Multimerization increases tumor enrichment of peptide-photosensitizer conjugates, Molecules,2019,24(4),817-34 (SCI, IF 3.3)
23)Qingle chen,wenjie Wu*, zhangyong Hong*, In vitro and in vivo evaluation of improved EGFR targeting peptide-conjugated phthalocyanine photosensitizers for tumor photodynamic therapy. Chinese Chemica Letters, 29(2018),1171-8 (SCI, IF 4.632)
2. 发明专利
[1]吴燕等,一种光催化剂复合材料RHC-CS/La3+-TiO2的制备方法,ZL201710715910.1(已授权)
[2]吴燕等,一种高吸湿性粉体喷射式消雾车,ZL201710666082.7(已授权)
[3]吴燕等,一种富集降解苯系物有机废水的复合材料的制备方法,ZL201610832663.9(已授权)
[4]吴燕等,一种利用疏浚底泥骨料制备免烧砖的方法,ZL201510420943.4(已授权)
[5]吴燕等,一种疏浚底泥免烧陶粒的裹壳方法,ZL201510387395.X(已授权)
[6]吴燕等,一种掺加疏浚底泥制备免烧陶粒的方法,ZL201510374608.5(已授权)
[7]吴燕等,一种环保疏浚底泥一体化机械深度干化系,ZL201420294523.7(已授权)
[8]吴燕等,一种环保疏浚余水/尾水净化人工湿地系统,ZL201410272676.6(已授权)
[9]吴燕等,一种环保疏浚底泥原位快速脱水系统,ZL201310129451.0(已授权)
[10]吴燕等,一种抑制液体危化品有毒气体生成与传输的微乳液及其制备方法,ZL201110134127.9(已授权)
[11]吴燕等,一种绞吸式淤泥脱水疏浚船,ZL201110084783.2(已授权)
[12]吴燕等,一种车载可移动下水道清淤装置,ZL201110084742.3(已授权)
[13]吴燕等,一种非均相水分蒸发抑制剂的制备方法,ZL200710056672.4(已授权)
[14]吴燕等,一种复合水分蒸发抑制剂的制备方法,ZL200710056671.X(已授权)
[15]吴燕等,一种超细硅酸铝粉体沉淀包膜表面修饰方法,ZL200710056670.5(已授权)
3. 主持科研项目
1.国家863计划军口部分项目,编号:DQS8367128,2011-2016,76万元
2.十三五预研项目,编号:305090305,2019-2020,92万
3.国家自然科学基金,编号:21806122,24万
4.国家自然科学基金,编号: 21808167,26
5.国家自然科学基金,编号:20976131,33万
6.国家自然科学基金,编号:U1162104,50万
7.国家自然科学基金,编号:21306137,25万
8.国家自然科学基金,编号:21676203,63万
9.天津市自然科学基金,编号:20JCQNJC00090,6万
10.军工项目,编号:1900030041,2019-2021,669万
11.军工项目,编号:21003005,2021-2022,82万
12.军工项目,编号:21003004,2020-2021,48万
13.军工项目,编号:1900030040,2019-2020,30万
14.军工项目,编号:1900030020,2019-2020,30万
15.军工项目,编号:1800030020,2017-2019,72万
16.军工项目,编号:1700030039,2017-2019,24万
17.军工项目,编号:1500030020,2015-2016,96万
18.横向项目:环保疏浚底泥深度脱水技术的研究与开发,2013-2016,180万
19.横向项目:一般工业固废制备免烧砖技术服务,2020-2021,60万
20.横向项目:疏浚土制备免烧砖与绿化土产业化技术咨询,2018-2020,50万
21.横向项目:有机硅表面活性剂研制,2015-2021,100万
22.横向项目:环保疏浚底泥板框脱水工艺技术研究,2017-2020,116万
23.横向项目:阳离子聚丙烯酰胺合成技术研究,2012-2014,65万
24.横向项目:太湖疏浚底泥制备免烧砖的技术可行性研究,2015-2016,20万
25.国家自然科学基金,编号21107080,2011-2014,25万
26.天津市科委基金,编号09JCYBJC06100,2009-2011,10万
27.横向项目:环保疏浚淤泥絮凝脱水技术研究,2010-2012,35万
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