一、研究生招生
可招收化学工程与技术专业博士研究生,新材料与技术、材料物理化学、材料学等材料科学与工程学术型硕士研究生,材料与化工专业型硕士研究生。
二、研究方向
1. 高分子组装与生物基功能高分子材料
2. 吸附分离材料的设计和构筑
3. 大环化合物的分子识别与组装
4. 纳米/微米结构导电聚合物及纳米纤维
5. 光电功能聚合物单体及聚合物设计开发
三、团队组成
团队负责人:
郭敏杰,博士,教授,博士生导师,材料系副主任
团队成员:
程博闻,教授,博士生导师,天津科技大学副校长
樊志,教授,硕士生导师,理学院院长
刘靖,副教授,硕士生导师,系毕业设计教研室副主任
李盛华,讲师,硕士生导师,系实习实践教研室副主任
赵金,讲师,硕士生导师,系课程教研室副主任
超分子组装与聚合物材料研究团队致力于以分子间弱相互作用及其协同效应为基础,利用有机合成和高分子合成等手段,设计和开发新型功能有机高分子材料,包括特种高分子材料、生物医用材料、光电功能材料及多孔材料等。团队与中科院国家纳米科学中心、南方科技大学、南开大学、军事科学院卫生保障技术研究所、中国石油化工股份有限公司、天津市众泰化工科技有限公司等多家单位长期合作。
四、主要科研成果
代表性论文:
1. Preparation and characterization of sulfated cellulose nanocrystalline and its composite membrane for removal of tetracycline hydrochloride in water. Energy and Environmental Materials, 2020, 3:209-215. (SCI收录)
2. Eco-friendly fabrication of a cost-effective cellulose nanofiber-based aerogel for multifunctional applications in Cu(II) and organic pollutants removal. J Clean Prod., 2020, 255: 120276. (SCI收录, JCR I区)
3. Two-Dimensional Conductive Metal–Organic Frameworks Based on Truxene. ACS Appl. Mater. Interfaces, 2020, 12: 7504-7509. (SCI、EI收录,JCR I区)
4. Enantioselective Electrochemical Sensor of Tyrosine Isomers Based on Macroporous Carbon Embedded with Sulfato-β-Cyclodextrin. Microchem. J., 2020, 159: 105469. (SCI、EI收录,JCR II区)
5. Electrochemical Sensor for Detection of p-Nitrophenol Based on Cyclodextrin Decorated Gold Nanoparticles-Mesoporous Carbon Hybrid. Analyst., 2019, 144: 4400-4406. (SCI、EI收录,JCR II区)
6. A Comparison Study of Graphene-Cyclodextrin Conjugates for Enhanced Electrochemical Performance of Tyramine Compounds. Carbohyd. Polym., 2019, 209: 258-265. (SCI、EI收录,JCR I区)
7. 甲基丙烯酸类聚合物修饰的聚乙烯隔膜在锂离子电池中的应用. 高等学校化学学报, 2019,40 : 2332-2339. (SCI、EI收录,JCR IV区)
8. Rapid and Destructive Adsorption of Paraoxon-Ethyl Toxin via a Self-Detoxifying Hybrid Electrospun Nanofibrous Membrane. Chem. Eng. J. ,2018, 351: 31-39. (SCI、EI收录,JCR I区)
9. Tunable white-light emission by supramolecular self-sorting in highly swollen hydrogels. Chem. Commun. 2018, 54, 220–223. (SCI、EI收录,JCR I区)
10. Study of the thermal degradation of benzene-containing glycerol carbonate derivatives by a combined TG–FTIR and theoretical calculation. Thermochimica Acta, 2017, 654: 179-185. (SCI、EI收录,JCR II区)
11. Regioselective Synthesis of Methylene-Bridged Naphthalene Oligomers and Their Host-Guest Chemistry. J. Org. Chem., 2017, 82: 9570-9575. (SCI收录,JCR II区)
12. Reversibly tunable white-light emissions of styrylpyridiniums with cucurbiturils in aqueous solution. Org. Lett. 2017, 19, 6650–6653. (SCI收录, JCR I区)
13. Formation and characterization of pseudo-polyrotaxanes based on poly(p-dioxanone) and cyclodextrins. Carbohyd. Polym., 2016, 142: 82-90. (SCI收录, JCR I区)
14. The investigation of thermal pyrolysis of glycerol carbonate derivatives by TG–FTIR. Thermochimica Acta, 2016, 624: 76-81. (SCI、EI收录,JCR II区)
15. Perylenetetracarboxylic-Metal Assemblies and Anisotropic Charge Transport in a Cu(II) Assembly. Nanoscale, 2016, 8: 9134-9140. (SCI收录,JCR II区)
16. Progress in artificial molecular machines. Chin. Sci. Bull. 2016, 61, 3917-3923. (SCI收录, JCR IV区)
17. Mechanically selflocked chiral gemini-catenanes. Nat. Commun. 2015, 6, 7590. (SCI收录, JCR I区)
18. Self-Assembly Behavior of Tail-to-Tail Superstructure Formed by Mono-6-O-(4-Carbamoylmethoxy-Benzoyl)-b-Cyclodextrin in Solution and the Solid State. Carbohydr. Res., 2014, 393: 32–36. (SCI收录,JCR IV区)
19. Protein imprinted with cyclodextrin pseudo-polyrotaxanes as pseudo- supports. Chinese J. Anal. Chem., 2014, 42(2): 186-191. (SCI收录, JCR IV区)
20. Self-assembly behavior of tail-to-tail superstructure formed by mono-6-O-(4- carbamoylmethoxy-benzoyl)-β-cyclodextrin in solution and the solid state. Carbohydrate Research, 2014, 393, 32-36. (SCI收录, JCR IV区)
21. Imprinted polymers with cyclodextrin pseudo-polyrotaxanes as pseudo- supports for protein recognition. Talanta, 2013, 105, 409-416. (SCI收录, JCR I区)
22. 2-呋喃甲硫醇修饰环糊精形成互锁式螺旋柱状超分子的自组装行为. 化学学报, 2013, 71: 439-442. (SCI收录,JCR IV区)
23. 1-Bromo-2- (cyclopropylidenemethyl) benzene: A Useful Building Block in the Palladium-Catalyzed Reaction of 2-Alkynylbenzenamine. Asian J. Chem., 2012, 7(7):1691-1696. (SCI收录, JCR I区)
24. The Binding Behavior of a Helical Column Supramolecule Formed by 6-Deoxy-6-(2-Pyrimidinethio)- b-Cyclodextrin in both Solution and the Solid State, Carbohydr. Res., 2012, 349: 103-107. (SCI收录,JCR IV区)
25. The Structure of Interlocked Helical Supramolecule Formed by the Self-Assembly of Mono-6-(4-Cyano-Phenyl)-β-Cyclodextrin. Solid State Sciences, 2010, 12: 834-838. (SCI收录,JCR IV区)
26. The Structure of Inclusion Complex of β-Cyclodextrin with p-Nitrophenoxyacetic Acid in Solution and the Solid State. J Incl Phenom Macrocycl Chem, 2010, 67: 393-398. (SCI收录,JCR IV区)
27. Different Self-Assembly Behaviors of Mono-Modified β-Cyclodextrin Substituted by Benzoic Acid Derivatives. Sci China Ser B Chem, 2010, 53: 1089-1094. (SCI收录,JCR IV区)
28. β-环糊精与麝香草酚超分子化合物在固态和溶液中的结构. 化学学报, 2010, 68: 798-802. (SCI收录,JCR IV区)
29. Preparation and characterization of ultra-low molecular weight poly(vinyl alcohol) graft copolymer. J. Appl. Polym. Sci., 2009, 113(6): 3954-3962. (SCI收录, JCR IV区)
30. An Investigation of the Inclusion Complex of β-Cyclodextrin with p-Nitrobenzoic Acid in the Solid State. Carbohydr. Res., 2007, 342: 2500-2503. (SCI收录,JCR IV区)
31. Protein-imprinted polymer with immobilized assistant recognition polymer chains. Biomaterials, 2006, 27(24): 4381-4387. (SCI收录, JCR I区)
32. Encapsulation oOf Quinine by β-Cyclodextrin: Excellent Model for Mimicking Enzyme-Substrate Interactions. J. Org. Chem., 2006, 71: 1244-1246. (SCI收录,JCR II区)
33. An Investigation of the Inclusion Complex of β-Cyclodextrin with 8-Nitro-Quinoline in the Solid State. Supramolecular Chemistry, 2006, 18: 7-11. (SCI收录,JCR IV区)
34. 增塑剂对可吸收缝合线后处理工艺条件和降解性能的影响. 高分子学报, 2005, 6: 829-833. (SCI收录, JCR IV区)
35. The Molecular Crystal Structure and Self-Assembly Behavior of 6I-O-(3-Nitrophenyl)-Cyclomaltoheptaose. Carbohydr. Res., 2005, 340: 513-517. (SCI收录,JCR IV区)
专利:
1. 双(对硝基苯酚)磷酸酯印迹聚合物及其制备方法,CN202010960905.9,(申请时间 2020.09.14)
2. 一种电解液添加剂、电解液及其使用其的锂离子电池, ZL 201810574218.6, (授权时间2020. 09. 11)
3. 一种还原偶联法制备4,4ˊ-二取代-2,2ˊ-二氨基联苯及其盐酸盐的方法, CN202010640857.5,(申请时间 2020.07.06)
4. 一种具有网络互穿结构的丙烯酸酯粘合剂及其制备方法, CN107523244B,(授权时间2019.07.05 )
5. 低致敏性医用丙烯酸酯压敏胶及其制备方法,CN202010467329.4,(申请时间 2020.05.28)
6. 环保型蜡纸箱用热熔胶及其制备方法,CN202010221717.4,(申请时间 2020.03.26)
7. 连续流氧化偶联法制备4,4ˊ-二取代-2,2ˊ-二氨基联苯及其盐酸盐的方法,CN202010101811.6,(申请时间 2020.02.19)
8. 一种溶致变色荧光化合物及其制备方法和应用,CN201910874998.0,(申请时间 2019.09.17)
9. 一种磺酸基环糊精衍生物及其修饰的纳米二氧化钛的制备方法,CN201910870236.3,(申请时间 2019.09.16)
10. 一种羧酸环糊精衍生物及其修饰的二氧化钛光催化剂的制备方法,CN201910870532.3,(申请时间 2019.09.16)
11.一种化学变色荧光墨水和制备方法及其应用,CN201910601929.2,(申请时间 2019.07.05)
12.一种超声波辅助酸水解微晶纤维素制备纳米纤维晶的方法,CN201811586486.6,(申请时间 2018.12.25)
13. 一种滤除染料分子的纳米纤维晶滤膜的制备方法,CN201811586893.7,(申请时间 2018.12.25)
14. 一种检测酪胺类分子电化学传感器及其制备方法和应用, CN201811406026.0, (申请时间2018.11. 23)
15. 一种基于微孔结构的环糊精构筑吸附材料的制备方法,CN201822204798.9,(申请时间 2018.09.21)
16. 一种基于聚乙烯醇与环聚多糖的超分子组装体的制备方法,CN201810470978.2,(申请时间 2018.05.17)
17. 基于亚硫酸甘油酯类化合物的电解液添加剂及锂离子电池, ZL 201510870362.0, (授权时间2018. 04. 27)
18. 一种具有网络互穿结构的丙烯酸酯粘合剂及其制备方法, CN201710803433.4,(申请时间 2017.09.08)
19. 一种基于环糊精分子组装体的蛋白质印迹凝胶的制备方法,CN201710776824.1,(申请时间 2017.09.01)
20. 一种环聚多糖改进聚对二氧环己酮亲水性的方法及应用,CN201710776780.2,(申请时间 2017.09.01)
21. 基于碳酸甘油酯类化合物的电解液添加剂及锂离子电池, ZL20151 0509004.7, (授权时间 2017. 05.03)
承担的部分纵向科研项目:
1. 天津市教委自然科学重大项目, 形貌可控的聚酰亚胺薄膜制备与应用, 2020FWCY029, 202001-202212
2. 光响应轮烷的合成及其可持续伸缩性能研究, 国家自然科学基金青年科学基金项目, 21801185, 201901-202112
3. 纳米氧化镁-印迹高分子复合物用于化学战剂模拟物检测、吸附和降解的一体化研究, 天津市科学技术委员会, 天津市科技重大专项与工程, 18ZXJMTG00070, 201810-202109
4. 光驱动机械自锁系线性分子马达的合成与功能研究, 天津市高等学校基本科研业务费资助项目, 2018KJ109, 201806-202105
5. 新型环糊精石墨烯复合体超分子电化学传感器的构建及传感性能研究, 天津市自然科学基金青年基金, No.18JCQNJC06300, 201804-2021045.
6. 新型环糊精衍生物的超分子组装体构筑及光致调控, 国家自然科学基金青年科学基金项目, 2160215 5, 201701-201912
7. 天津市应用基础与前沿技术研究计划, 医疗电极用导电聚合物水凝胶的研制与开发, 15JCTPJC56600, 201510-201609;
8. 有机功能超分子体的控制组装及性能研究, 天津市科学技术委员会, 面上项目, 09JCYBJC06300, 200910-201009
9. 国家自然科学基金, 基于线性螯合功能的“假载体”脉络体系印迹识别蛋白质的研究, 20704031, 200801-201012;
5. 天津市教委自然科学发展基金项目, 串联配位功能体系印迹识别蛋白质的研究, 20050604, 200611-200910;
五、联系方式
于晓亮老师
Tel:15022530897,e-mail:xlyu@tust.edu.cn
赵金 老师
Tel:15122302027,e-mail:zhaoj@tust.edu.cn