刘天庆 - 大连理工大学

个人简介

教育经历 1974.91977.6 大连二十二中学无 1985.91988.8 大连理工大学化学工程博士 1982.91985.8 大连工学院化学工程硕士 1978.91982.8 大连工学院无机化工学士工作经历 1998.7至今大连理工大学教授 1991.71998.6 大连理工大学副教授 1988.91991.6 大连理工大学讲师 1985.91988.8 大连理工大学在职博士

研究领域

温度响应型纳米锥超疏水表面调控细菌粘附和生物垢形成的研究: 采用阳极氧化耦合热压成型技术在聚合物基底上制备纳米锥结构，并将PNIPAAm接枝到纳米锥表面，从而构建出温度响应型纳米锥超疏水表面。研究荧光假单胞菌等细菌在该表面上粘附、被纳米锥穿破细胞壁、以及被杀灭细菌的细胞碎片在变温后脱离壁面等动态过程，揭示过程的物理本质和机理，给出能够穿破细菌细胞壁的适宜纳米锥结构参数，最终实现长期抑制细菌粘附及生物垢形成的目标。干细胞扩增和分化控制及工程组织的大规模培养：采用各种生物的，化学的或物理的方法，在体外构建模拟体内干细胞扩增或分化的微环境，研究各种因素对干细胞扩增或分化的影响。应用化学工程分析反应器内流体流动、传热传质的原理和技术，结合干细胞及其他组织工程种子细胞在体外生长的适宜条件的要求，设计低剪切力、高传质速率的新型生物反应器。研究干细胞及工程组织在生物反应器三维培养条件下的扩增、生长规律和最佳条件，并应用免疫组织化学和分子生物学及动物试验等方法检测扩增的干细胞和工程组织的生物性能。超疏水表面微纳结构与实现高效滴状冷凝关系的研究：对超疏水表面上的滴状冷凝进行理论及实验两方面研究。采用微机械加工和等离子体刻蚀等方法制备各种微纳二阶层粗糙结构，采用AFM 及STM等技术对表面进行表征及相关分形研究，通过热力学能量状态分析阐明液滴状态与表面微纳粗糙结构参数之间的关系，并将表观接触角和滚动角与表面微纳结构参数和分形维数进行定量关联，优化能够实现高效滴状冷凝的超疏水表面的结构参数和相应的制备方法与条件。对超疏水表面上的滴状冷凝传热进行研究，并通过滴状冷凝传热模型进行理论分析。

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）

Hu, Xueyan,Liu, Tianqing,Parungao, Roxanne,Wang, Yiwei,Zheng, Shuangshuang,Nie, Yi,Song, Kedong,Man, Yuan,Li, Wenfang,Li, Liying,Xu, Jie.3D Bio-Printing of CS/Gel/HA/Gr Hybrid Osteochondral Scaffolds[J],POLYMERS,2019,11(10) Song, Kedong,Liu, Tianqing,Wang, Hongfei,Kong, Qian,Li, Liying,Wang, Yiwei,Parungao, Roxanne,Zheng, Shuangshuang,Nie, Yi,Jiao, Zeren.In Vitro Fabrication and Biocompatibility Assay of a Biomimetic Osteoblastic Niche[J],APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY,2019,189(2):471-484 Ning, Yu,Song, Xuedan,Zhang, Heming,Liu, Tianqing,Hao, Ce.The oxygen sensing mechanism of a triphenylamine-based cyclometalated platinum(II) complex[J],JOURNAL OF LUMINESCENCE,2019,208:46-50 Yu Zhang,Lili Jiang,Tiezheng Zheng,Li Sha,Jianzhuang Wang,Haichao Dong,Kedong Song,Tianqing Liu.Development of decellularized meniscus extracellular matrix and gelatin/chitosan scaffolds for meniscus tissue engineering[J],Bio-medical materials and engineering,2019,30(2):125-132 Li Liying,Chen Yongzhi,Wang Yiwei,Shi Fangxin,Nie Yi,Liu Tianqing,Song Kedong.Effects of concentration variation on the physical properties of alginate-based substrates and cell behavior in culture[J],International journal of biological macromolecules,2019,128:184-195 Li, Wenfang,Song, Kedong,Hu, Xueyan,Yang, Shuaitao,Wang, Shuping,Zhang, Chenghong,Wang, Hai,Cheng, Yuen Yee,Wang, Yiwei,Liu, Tianqing.A novel tissue-engineered 3D tumor model for anti-cancer drug discovery[J],BIOFABRICATION,2019,11(1):015004 Ning, Yu,Song, Xuedan,Zhang, Heming,Liu, Tianqing,Hao, Ce.The oxygen sensing mechanism of a trifluoromethyl-substituted cyclometalated platinum(II) complex[J],COMPUTATIONAL AND THEORETICAL CHEMISTRY,2018,1145:1-5 Wang, Shuping,Guan, Shui,Li, Wenfang,Ge, Dan,Xu, Jianqiang,Sun, Changkai,Liu, Tianqing,Ma, Xuehu.3D culture of neural stem cells within conductive PEDOT layer-assembled chitosan/gelatin scaffolds for neural tissue engineering[J],MATERIALS SCIENCE & ENGINEERING C-MATERIALS FOR BIOLOGICAL APPLICATIONS,2018,93:890-901 Li, Wenfang,Hu, Xueyan,Wang, Shuping,Wang, Hai,Parungao, Roxanne,Wang, Yiwei,Liu, Tianqing,Song, Kedong.Detection and Evaluation of Anti-Cancer Efficiency of Astragalus Polysaccharide Via a Tissue Engineered Tumor Model[J],MACROMOLECULAR BIOSCIENCE,2018,18(11):e1800223 Li, Liying,Song, Kedong,Chen, Yongzhi,Wang, Yiwei,Shi, Fangxin,Nie, Yi,Liu, Tianqing.Design and Biophysical Characterization of Poly (L-Lactic) Acid Microcarriers with and without Modification of Chitosan and Nanohydroxyapatite[J],POLYMERS,2018,10(10) Li, Yanjie,Li, Xiangqin,Liu, Tianqing,Song, Weiguo.Analysis of meniscus beneath metastable droplets and wetting transition on micro/nano textured surfaces[J],CHINESE PHYSICS B,2018,27(8) Xu Chao,Guan Shui,Wang Bo,Wang Shuping,Wang Yuxin,Sun Changkai,Ma Xuehu,Liu Tianqing.Synthesis of protocatechuic acid grafted chitosan copolymer: Structure characterization and in vitro neuroprotective potential.[J],International journal of biological macromolecules,2018,109:1-11 宋克东,秦帅,卢延国,田佳鑫,Wang Yiwei,刘天庆.Numerical Simulation for Distribution and Mass Transfer of Nutrient Substance within Microbeads in Different Culture Systems[A],MSO2018,2018 宋克东,李丽颖,李文芳,胡雪岩,刘天庆.Fabrication and development of artificial osteochondral constructs based on cancellous bone/chitosan-gelatin hydrogel hybrid Scaffold. [A],10th World Congress and Expo on Cell & Stem Cell Research,2018 宋克东,李丽颖,李文芳,胡雪岩,刘天庆.Ex Vivo Expansion of Hematopoietic Stem/Progenitor Cells supported by Microencapsulated Osteoblasts under a Hypoxia environment.[A],10th World Congress and Expo on Cell & Stem Cell Research,2018 宋克东,李丽颖,Wang Yiwei,聂毅,刘天庆.Design and modification of poly (L-lactic) acid microcarriers and their biocompatibility for MC3T3-E1 cells culture[A],IUPESM2018,2018 宋克东,李丽颖,胡雪岩,Wang Yiwei,刘天庆.Influence of copolymer grafting density on cell adhesion performance onto surface of a novel thermosensitive chitosan membrane[A],IUPESM2018,2018 宋克东,李文芳,Wang Yiwei,聂毅,刘天庆.Anti-tumor potential of astragalus polysaccharides on breast cancer cell line mediated by macrophage activation[A],IUPESM2018,2018 李丽颖,宋克东,陈涌智,刘天庆.基于物理掺杂与表面修饰设计与表征聚乳酸基微载体[A],2018全国仪器科学、光学工程生物医学工程博士生学术论坛,2018 李文芳,胡雪岩,宋克东,刘天庆.基于脱细胞基质的新型3D肿瘤模型的构建及评估[A],李文芳，胡雪岩，宋克东*，刘天庆. ，2018全国仪器科学、光学工程生物医学工程博士生学术论坛,2018 胡雪岩,宋克东,李文芳,李丽颖,刘天庆.梯度骨软骨复合物的体外构建与生物相容性检测[A],2018全国仪器科学、光学工程生物医学工程博士生学术论坛,2018 Xu, Chao,Guan, Shui,Wang, Shuping,Gong, Weitao,Liu, Tianqing,Ma, Xuehu,Sun, Changkai.Biodegradable and electroconductive poly(3,4-ethylenedioxythiophene)/carboxymethyl chitosan hydrogels for neural tissue engineering.[J],Materials science & engineering. C, Materials for biological applications,2018,84:32-43