1、基本信息
刘婷,女,黑龙江牡丹江人,1990年10月出生,理学博士,讲师。2021年6月毕业于哈尔滨工业大学物yl23455永利,同年7月以成栋青年骨干身份人才引进yl23455永利物理系光学工程学科工作。在J.Lumin.,Opt.Express等刊物上发表多篇SCI论文。
电话:15124546826
邮箱:834867043@qq.com
2、学习经历
2016.9-2021.6哈尔滨工业大学物yl23455永利 理学博士
光学专业
2013.9-2016.6哈尔滨师范大学物理与电子工程学院 理学硕士
凝聚态物理专业
2009.9-2013.6哈尔滨师范大学物理与电子工程学院 理学学士
物理学专业
3、工作经历
2021.7-至今yl23455永利物理系 讲师
4、所在学科
yl23455永利光学工程
5、研究方向
(1)金属卟啉基多功能光敏剂的设计与光学性质研究
(2)光动力疗法计量化实施相关问题研究
历年发表文章情况
1.Liu T., Meng Q. Y., Sun W. J. “Electron-phonon coupling properties and energy transfer in NaY(WO4)2:Eu3+phosphor.”Journal of Alloys and Compounds647, 830-836, 2015
2.Liu T., Meng Q. Y., Sun W. J. “Study on luminescent properties of Eu3+doped NaY(WO4)2nanophosphors prepared by molten salt method.”Journal of Rare Earths33(9), 915-921, 2015
3.Liu T.,Meng Q. Y., Sun W. J.“Luminescence properties of NaY(WO4)2:Sm3+,Eu3+phosphors prepared by molten salt method.”Journal of Luminescence170, 219-225, 2016
Liu T.,Zhang H. L., Zhao H., Zhang Z. G., Tian Y.“Excellent capacity of singlet oxygen generation by gadolinium labelled sinoporphyrin sodium.”Journal of Luminescence219,116972, 2020
Liu T.,Zhang X. Y.,Zhang H. L., Zhao H., Zhang Z. G., Tian Y. “Method for monitoring singlet oxygen quantum yield in real time by time resolved spectroscopy measurement.”Optics Express28(18), 401423, 2020
Liu T., Zhang X. Y., Zhang H. L., Zhao H., Zhang Z. G., Tian Y. “Kinetics process of room temperature phosphorescence and fluorescence of gadolinium porphyrin in the aqueous
Liu T.,Zhang X. Y., Zhang H. L., Zhao H., Zhang Z. G., Tian Y.“The effect of micromolecule on the photodynamic therapy efficiency of sinoporphyrin sodium using imidazole as impact factor”Chemical Physics543(2021)111090.
Zhang H. L.,Liu T.,Li Q. H., Zhang X. Y., Zhao H.. Zheng Y. D., Qin F., Zhang Z. G., Sheng T. Q., Tian Y.Large-scale sensitivity adjustment for Gd-HMME room temperature phosphorescence oxygen sensing.Spectrochimica Acta Part A: a molecular and biomolecular spectroscopy.267(2022)120490.
Meng Q. Y.,Liu T., Dai J. Q., Sun W. J. “Study on optical temperature sensing properties of YVO4:Er3+, Yb3+nanocrystals.”Journal of Luminescence179, 633-638, 2016