姓名:高影
学历:博士研究生
Email:gaoy029@163.com
职称职务:副研究员
研究方向:理论与计算化学
▏教育工作经历
2015/09-2018/07,吉林大学,物理化学博士
2012/09-2015/07,东北师范大学,物理化学硕士
2008/09-2012/07,北华大学,理学学士
2020/12-2023/12,吉林大学,博士后研究员
2019/01-2019/12,新加坡科技设计大学,访问学者
2018/01-至今,吉林工程技术师范学院 生物质功能材料交叉学科研究院,副研究员
▏获奖荣誉
吉林省高层次E类人才
▏教学与科研工作
主要从事研究方向包括:(1)非线性光学材料理论研究,包括Möbius环并苯,碳纳米管,冠醚等非线性光学性质和结构关系。(2)有机发光二极管材料理论研究,包括金属铱配合物和热活性延迟荧光材料的理论设计,以及发光机理研究。(3)荧光分子的设计及发光机理研究,通过理论计算阐明荧光分子的结构和性能关系,指导设计合成新型的荧光染料。以第一作者、通讯作者发表学术论文20余篇,主持国家自然科学青年基金1项,主持吉林省教育厅1项。主要承担的课程《创业基础》。
▏科研项目
[1] 国家自然科学基金青年项目: 具有聚集诱导发光性能的热活性延迟荧光材料的发光机制研究及其设计合成, 2020.01-2022.12,25万,主持人。
[2] 吉林省教育厅项目:基于溴修饰咔唑的纯有机室温磷光分子的设计,2022.01-2023.12,2.5万,主持人。
▏研究成果
学术论文
[1] Ying Gao*; Chenglin Sun; Tan Su Design of highly stable thermally activated delayed fluorescence emitters via the overlap degree of HOMO-LUMO distributions, Journal of Molecular Structure, 2023, 1272, 134213.
[2] Ying Gao, Jia Wang, Chenglin Sun*, Tan Su*, Room-Temperature Phosphorescence Luminophores Design with Enhanced Spin-orbit Coupling through Heavy Atom Effect, Chemical Physics, 2023, 573, 112006.
[3] Weilin Song, Huiting Mao, Kuizhan Shao, Guogang Shan*, Ying Gao*, Qunying Zeng*, Fushan Li and Zhongmin Su*, Dinuclearization strategy of cationic iridium(III) complexes for efficient and stable flexible light-emitting electrochemical cells, Journal of Materials Chemistry C, 2023, 11, 1197.
[4] Weilin Song, Huiting Mao, Ying Gao*, Yaxuan Yao, Guo-Gang Shan, Zhongmin Su*, Understanding AIE and ACQ phenomenon of organometallic iridium(III) complexes by simple cationization engineering, Chinese Chemical Letters, 2023, 108309.
[5] Xiang Ding, Jun-Ling Jin∗, Ji-Feng Yang, Li-Hui Ou, Ying Gao*, Yong Wu, Theoretical studies on spiro[acridine-fluorene]-based emitters with efficient thermally activated delayed fluorescence, Journal of Molecular Structure, 2023, 1284, 135431.
[6] Gang Sun, Xin‑Hui Wang, Jing Li, Bo Ting Yang*, Ying Gao*, Yun Geng, Effect of hybridized local and charge transfer molecules rotation in excited state on exciton utilization, Scientific Reports, 2021, 11, 17686.
[7] Jun-Ling Jin, Xiang Ding, Yuan-Dao Chen, Ji-Feng Yang, Li-Hui Ou*, Ying Gao*, Yong Wu, Theoretical studies on phthalimide-based efficient thermally activated delayed fluorescence emitters, Chemical Physics Letters, 2021, 778, 138750.
[8] Ying Gao, Chao Wang, Weijie Chi, Xiaogang Liu,* Molecular Origins of Heteroatom Engineering on the Emission Wavelength Tuning, Quantum Yield Variations and Fluorogenicity of NBD-like SCOTfluors, Chemistry-an Asian Journal, 2020, 12, 1-6.
[9] Ying Gao, Xiaodong Yang, Shuixing Wu,* Yun Geng,* Influence of Linked Bridges on Thermally Activated Delayed Fluorescence Characteristic for DCBPy Emitter, Advanced Theory and Simulations, 2019, 1900076.
[10] Ying Gao, Shuang Ding, Zhongmin Su, Yun Geng,* Modulating the blue shift of phosphorescence with fluorine-free group in iridium complexes, Journal of Luminescence, 2019, 479-484.
[11] Ying Gao, Qingqing Pan, Liang Zhao, Yun Geng,* Tan Su,* Ting Gao, Zhongmin Su, Realizing performance improvement of blue thermally activated delayed fluorescence molecule DABNA by introducing substituents on the paraposition of boron atom, Chemical Physics Letters, 2018, 98-102.
[12] Ying Gao, Tan Su, Liang Zhao, Yun Geng,* Yong Wu,* Min Zhang, Zhong-Min Su,* How does a little difference in structure determine whether molecules have thermally activated delayed fluorescence characteristic or not? Organic Electronics, 2017, 50, 70-76.
[13] Ying Gao, Yun Geng,* Yong Wu,* Min Zhang, Zhong-Min Su, Investigation on the effect of connected bridge on thermally activated delayed fluorescence property for DCBPy emitter, Dyes And Pigments, 2017, 145, 277-284.
[14] Ying Gao, Tan Su, Yong Wu, Yun Geng,* Min Zhang, Zhong-Min Su,* Triptycences as thermally activated delayed fluorescence materials: Effect of π-conjugation length and donors, Chemical Physics Letters, 2016, 666, 7-12.
[15] Ying Gao, Rong-Lin Zhong, Hong-Liang Xu,* Shi-Ling Sun and Zhong-Min Su,* The effect of ring sizes and alkali metal cations on interaction energy, charge transfer and nonlinear optical properties of crown ether derivatives, Rsc Advances, 2015, 5, 30107-30119.
[16] Ying Gao, Heng-Qing Wu, Shi-Ling Sun*, Hong-Liang Xu, Zhong-min Su*, One lithium atom binding with P-nitroaniline: lithium salts or lithium electrides? Journal of Molecular Modeling, 2015, 21, 23-29.
[17] Ying Gao, Shi-Ling Sun, Hong-Liang Xu,* Zhong-Min Su,* Suitable helical cavity, suitable alkali metal, larger first hyperpolarizability, Chemical Physics Letters, 2014, 600, 123-127.
[18] Ying Gao, Heng-Qing Wu, Rong-Lin Zhong, Hong-Liang Xu,* Shi-Ling Sun, Liang Zhao, and Zhong-Min Su,* The Effect of Boron Nitride Nanotubes Size on the HarF Interaction by NBO and AIM Analysis, International Journal of Quantum Chemistry, 2014, 114, 1692-1696.
[19] Ying Gao, Hong-Liang Xu,* Rong-Lin Zhong, Shi-Ling Sun, Zhong-Min Su,* Probing the Relationship between Spin Contamination and First Hyperpolarizability: Open-Shell Mobius Anion, International Journal of Quantum Chemistry, 2014, 114, 720-724.
[20] Ying Gao, Hong-Liang Xu,* Rong-Lin Zhong, Shi-Ling Sun,* Zhong-Min Su, Structures and electro-optical properties of Möbius [n] Cyclacenes[13–18]: a theoretical study, Journal of Molecular Modeling, 2014, 20, 2201-2207.
[21] Ying Gao, Shi-Ling Sun, Hong-Liang Xu,* Liang Zhao, Zhong-Min Su,* N-Methylbenzoaza-18-crown-6-ether derivatives as efficient alkali metal cations sensors: the dipole moment and first hyperpolarizability, Rsc Advances, 2014, 4, 24433-24438.
