Tian Jintao
Ph.D., Associate Professor (jttian@ouc.edu.cn)
Personal information:
After having received my bachelor's, master's and doctor's degrees from Tsinghua University, I worked in Japan (AIST-Kyushu Center) and Spain (Universidad de Alicante) from 2001 to 2005, and is currently an associate professor in the School of Materials Science and Engineering, Ocean University of China. The courses of Introduction to Composite Materials and New Functional Materials are offered for undergraduate students while the courses of Material Thermodynamics and Dynamics and Fundamentals of Material Engineering are for graduate students. Engaged in materials science involving metals, ceramics, and organics, my research interest in recent years mainly focused on photofunctional molecules, including preparation, performance improvement and application of these materials. Researchers or students who are interested in these materials are welcome for cooperation.
Academic Experience
1990-1995 B.S. in Mechanical Engineering, Department of Mechanical Engineering, Tsinghua University
1995-2000 M.S./Ph.D. in the State Key Laboratory of New Ceramics and Fine Processing, Tsinghua University
2001-2003 STA (JSPS) fellow in the National Institute of Advanced Industrial Science and Technology (AIST), Kyushu Center, Japan
2003-2005 Postdoctoral Researcher, University of Alicante, Spain
2005-present, Associate Professor, School of Materials Science and Engineering, Ocean University of China
Research Interests
(1) Design and synthesis of photofunctional molecules
(2) Regulation and control of light absorption and light emission
(3) Luminescence mechanism and fluorescence enhancement of organic molecules
(4) Identification and detection of environmental pollutants via photofunctional molecules
(5) Light-controlled loading, delivery and release of drugs
Research Projects (Principal Investigator)
(1) Natural Science Foundation of Shandong Province (ZR2018MB011)
(2) Natural Science Foundation of Shandong Province (ZR2013EMM017)
(3) Research Fund for Doctoral Program of Higher Education of China (200804231004)
(4) Shandong Province Young and Middle-Aged Scientists Research Awards Fund (BS2009CL016)
(5) Fundamental Research Funds for the central Universities”, Ocean University of China (201113002)
Publications (first author or corresponding author)
(1) Jintao Tian, Weiguo Tian, Peizhen Gong. A rapid detection method for aniline. Patent No. 201410346473.7.
(2) Jintao Tian, Weiguo Tian, Yufeng Mao. A fluorescent detection method for aniline. Patent No. 201410344631.5.
(3) Jintao Tian, Weiguo Tian. A new method for preparing 5-nitrosalicylaldehyde. Patent No. ZL 2012 1 0102580.6.
(4) Yinan Xue, Peizhen Gong, and Jintao Tian. Specific recognition of Cu2+ by simple spiropyran via forming a ternary complex of spiropyran-Cu2+-DMF. Colloids and Surfaces A 541 (2018): 165–174.
(5) Zhixun Zhao and Jintao Tian. Ultraviolet-visible/fluorescence behaviors of a spiropyran/polydimethylsiloxane composite film under acid vapors. J. Appl. Polym. Sci. 134 (2017): 45199.
(6) Weiguo Tian, Yinan Xue, Jintao Tian, Peizhen Gong, et al. Colorimetric and fluorometric dual-mode detection of aniline pollutants based on spiropyran derivatives. RSC Adv. 6 (2016): 83312–83320.
(7) Yinan Xue, Jintao Tian, Weiguo Tian, Peizhen Gong, Jinhui Dai, and Xin Wang. Significant fluorescence enhancement of spiropyran in colloidal dispersion and its light-induced size tunability for release control. J. Phys. Chem. C 119 (2015): 20762−20772.
(8) Weiguo Tian and Jintao Tian. An insight into the solvent effect on photo-, solvato-chromism of spiropyran through the perspective of intermolecular interactions. Dyes and Pigments 105 (2014): 66-74.
(9) Weiguo Tian and Jintao Tian. Synergy of different fluorescent enhancement effects on spiropyran appended onto cellulose. Langmuir 30 (11) (2014): 3223-3227.
(10) Jinqian Jia, Jintao Tian, Weiguo Tian. Effect of amine addition on the synthesis of CdSe nanocrystals in liquid paraffin via one-pot method. Optical Mater 36 (2014): 813-819.
(11) Jinqian Jia, Jintao Tian. One-pot synthesis in liquid paraffin of ternary alloy CdSexS1-x nanocrystals with fluorescence emission covering entire visible region. J. Nanopart. Res. 16 (2014): 2283.
(12) Xiangming Liu, Jintao Tian, Jinhui Dai. Aqueous synthesis of thiol-capped CdTe quantum dots and its photoluminescence enhancement via room temperature treatment with alkyl chain diamines. Physica E 57 (2014): 56-62.
(13) Xiangming Liu, Jintao Tian. Zn2+ addition: A facile way to obtain CdTe nanocrystals powders with enhanced fluorescence emission. Colloids and Surfaces A 451 (2014): 85-89.
(14) Dongyun Yu, Jintao Tian, Jinhui Dai. Anticorrosion Behavior of Superhydrophobic Composite Coating on Carbon Steel in Seawater. Corrosion 70 (2014): 329-336.
(15) Dongyun Yu, Jintao Tian. Superhydrophobicity: Is it really better than hydrophobicity on anti-corrosion? Colloids and Surfaces A 445 (2014): 75-78.
(16) Dongyun Yu, Jianfei Wang, Jintao Tian, Xingming Xu, Jinhui Dai, Xin Wang, Preparation and characterization of TiO2/ZnO composite coating on carbon steel surface and its anticorrosive behavior in seawater, Composites Part B 46 (2013): 135-144.
(17) Dongyun Yu, Jintao Tian, Jinhui Dai, Xin Wang, Corrosion resistance of three-layer superhydrophobic composite coating on carbon steel in seawater, Electrochimica Acta 97 (2013): 409-419.
(18) Weiguo Tian, Wen Mi, Jintao Tian, Jinqian Jia, Xiaoyun Liu, Jinhui Dai, Xin Wang. Comparative study on CdSe QDs synthesized from water and ethanol: hydrogen bond induced particle agglomeration and enhancement on photoluminescence. Analyst 138 (2013): 1570-1580.
(19) Jinqian Jia, Jintao Tian, Wen Mi. Growth kinetics of CdSe nanocrystals synthesized in liquid paraffin via one-pot method. J. Nanopart. Res. 15 (2013): 1724.
(20) Wen Mi, Weiguo Tian, Jintao Tian, Jinqian Jia, Xiaoyun Liu, Jinhui Dai, XinWang. Synthesis of CdSe quantum dots in ethanol: a facile way to achieve photoluminescence with high brightness. Colloids and Surfaces A 417 (2013): 179-182.
(21) Jianfei Wang, Wen Mi, Jintao Tian. Effect of calcinations of TiO2/ZnO composite powder at high temperature on photodegradation of methyl orange. Composites Part B 45 (2013): 758-767.
