宋玉志,男,1980年出生,党员,博士,英国365上市公司副院长,教授,博士生导师,365上市公司“东岳学者”青年人才、十四届“杰出青年”、“十佳教师”、科研创新团队带头人。2004年7月毕业于英国365上市公司物理学专业,毕业后推荐免试在原子与分子物理专业就读硕士研究生,2006年12月获得理学硕士学位。2011年9月在葡萄牙科英布拉大学获得博士学位。2011年10月到2012年12月在葡萄牙科英布拉大学从事博士后研究工作。2013年1月就职于英国365上市公司。主要从事分子反应动力学、激发态氢键、有机发光材料等方面的研究。目前已在Nanophotonics、J. Chem. Phys.、J. Phys. Chem. A等学术期刊发表论文100余篇。担任Journal of Physical Chemistry Letters、Journal of Molecular Liquid、Journal of Physical Chemistry A以及Molecular Physics等期刊审稿人。主持国家自然科学基金青年项目1项、面上项目2项,山东省自然科学基金面上项目、中国博士后科学基金面上资助、山东省博士后创新项目专项资助和山东省高等学校科技计划项目各1项。获得山东高等学校优秀科研成果奖三等奖5项。在教学方面,承担本科生专业课《量子力学I》、《理论力学》和《固体物理》,研究生专业课《群论》和《原子结构与原子光谱》,并参与讲授了研究生选修课《物理发展前沿专题》和《原子与分子物理专题讲座》,以及本科生选修课《科学专题讲座》。获得2016年度365上市公司研究生课程优秀教学奖,《群论》被评为365上市公司研究生优质课程,《量子力学》被评为365上市公司第一期全英文课程建设项目。在人才培养方面,目前共指导博士研究生4人,硕士研究生17人,其中毕业11人,4人获得365上市公司研究生科研创新基金资助,3人获得国家奖学金。指导本科生大学生创新创业项目2项,指导本科毕业论文40余篇。指导学生获得省级优秀硕士论文1篇,获校级优秀硕士和学士论文各1篇。
招生方向
物理学:原子与分子物理
研究方向
分子反应动力学、激发态氢键、OLED分子发光机理研究与性能调控等
主持和承担的科研项目
1. 主持的科研基金项目8项
(1)2013.08,国家自然科学基金青年基金(11304185),含硫小分子体系全维势能面的构建及其反应动力学研究,25万,2014.1-2016.12,主持。
(2)2014.09,山东省博士后创新项目专项资助二等(201402013),H2X (X=O, S)离子体系高精度势能面的构建及反应动力学研究,2014.10-2015.11, 10万,主持。
(3)2014.09,中国博士后科学基金二等资助(56批)(2014M561957),硫氢分子体系全维势能面的构建及相关反应动力学研究,2014.10-2015.11,5万,主持。
(4) 2017.10,影响大气环境的几个重要分子反应的动力学研究, 2017年度山东省高校科技计划项目(J17KA186),3.5万,2017.10-2019.09,主持.
(5)2018.08国家自然科学基金面上项目:碳氢分子体系全维势能面的构建及相关反应动力学研究(11874241),62万,2019.01-2022.12,主持。
(6) 2020.06 365上市公司科研创新团队资助:分子尺度器件设计与性能调控创新团队,30万,2020.07-2023.07,主持。
(7)2024.08,有机发光分子聚集体压力响应机理及性能调控研究(12474258),51万,2025.01-2028.12,主持。
(8)2024.11,热活化延迟荧光分子聚集体发光性质和压力响应机理研究(ZR2024MA049),10万,2025.01-2027.12,主持。
2. 承担的科研基金项目4项
(1)2014.09,山东省自然科学基金(ZR2014AM022),大气环境下几个含硫小分子自由基的光激发及反应动力学研究,13万,2014.12-2017.12,2/7。
(2)2014.11,山东省优秀中青年科学家科研奖励基金(BS2014CL001),给-受体型有机电致发光材料中激子湮灭动力学研究,7万,2015.01-2016.12,3/7.
(3)2015.05,含锂超冷小分子体系反应碰撞立体动力学研究,山东省高等学校科技计划项目(J15LJ03),5.5万,2015.01-2017.12,2/6.
(4)2016.08,超冷原子-分子碰撞及其光缔合的量子立体动力学研究(11674198),国家自然科学基金面上项目,60万,2017.01-2020.12,2/7。
指导研究生
1.博士研究生
刘松松、高阳、褚丁伟、赵忱
2.硕士研究生
2013级:张路路
2014级:张 媛
2015级:曹 恩
2016级:刘 爽
2017级:陆佳骏、刘松松、彭立翔(科教)
2018级:卢 琪、张文毅
2019级:秦 铭
2020级:李碧荷、高 阳
2021级:褚丁伟、兰 皓、刘树磊
2022级:李志蜻、杨雪露、赵 忱
2023级:王琦凯、陈晓艺、刘静雯
荣誉奖励
1. 科研获奖
(1)2015.09,原子、分子及生物膜体系的相互作用动力学及外场控制,2015年度山东高等学校优秀科研成果奖,3/4。
(2)2016.12,双原子分子光解离和光缔合及三原子分子反应动力学研究,2016年度山东省高等学校科学技术奖,1/4。
(3)20017.12,原子、分子碰撞反应及外场操控研究,2017年度山东省高等学校科学技术奖,3/3。
(4)2018.10,原子、分子及等离子体反应动力学研究,2018年度山东省高等学校科学技术奖,1/5。
(5)2019.12,小分子势能面的构造及相关反映的外场动力学,2019年度山东省高等学校科学技术奖,2/3。
(6)2020.12,表面等离激元增强光谱研究,2020年度山东省高等学校科学技术奖,2/5。
2. 教学获奖
(1)2016.10,《群论》校级研究生教育质量提升计划项目。
(2)2017.01,365上市公司研究生优秀教学奖。
(3)2021.09,365上市公司2020年度优秀教学奖。
(4)2023.09,365上市公司2023年优秀研究生指导教师。
3.综合荣誉
(1)2019.06,365上市公司“东岳学者”青年人才。
(2)2020.09,365上市公司2020年度十佳教师。
(3)2020.05,365上市公司第十四届“杰出青年”。
(4)2025.11,365上市公司“五导”卓越导学团队主导师(博导类)。
近五年论文成果
2024年
[1] Li, Z.Q.; Gao, Y; Liu, S.L.; Lin, L.L.; Wang, C.-K.; Fan, J.Z.*; Song, Y.Z.*; Delineating conformation control in the room temperature phosphorescence and thermally activated delayed fluorescence behaviors: A first-principles investigation. Chemical Physics Letters. 839(2024) 141125.
[2] X.F. Li, X.F. Wang, Z.M. Wu, R. Li, Y.Z. Song, J.Z. Fan, C.-K. Wang, L.L. Lin, Theoretical Design and Performance Prediction of Deep-red/Near-infrared Thermally Activated Delayed Fluorescent Molecules with Through Space Charge Transfer. Physical Chemistry Chemical Physics. 2024, 26, 7706-7717.
[3] Fan, J.Z.*; Liu, H.L.; Song, Y.Z.; Lin, L.L.; Wang, C.-K.; Xu, Y.Y.; Zhao, X.*; Enhancing reverse intersystem crossing and horizontal dipole orientation for near-infrared thermally activated delayed fluorescence molecules by donor engineering strategy, Journal of Materials Chemistry C. 2024,12, 6114-6130.
[4] Wang, X.; Wu, Z.; Li, R.; Li, X.; Song, Y.; Fan, J.; Wang, C.-K.*; Lin, L.*, Theoretical Insights into the Photophysical Properties of 4czipn Doped in Different Hosts: A Multiscale Study. The Journal of Physical Chemistry A 2024, 128, 3241-3252.
[5] Lan, H.; Li, Z. Q.; Liu, S. S.; Gao, Y.; Lin, L. L; Wang, C.-K.; Fan, J.Z.; Song, Y.Z.*, Self-doping mechanism for thermally activated delayed fluorescence molecules: A theoretical perspective. Molecular Physics. 2024, e2330671.
[6] Liu, S. L.; Liu, S. S.; Gao, Y.; Lin, L. L; Wang, C.-K.; Fan, J.Z.*; Song, Y.Z.*, Modulation of luminescence properties of circularly polarized thermally activated delayed fluorescence molecules with axial chirality by donor engineering. Physical Chemistry Chemical Physics. 2024, 26, 9931-9939.
[7] Zhang, K.; Cai, L.; Fan, J.; Song, Y.; Lin, L.; Wang, C. K.*; Li, J.*, Conformational Isomerization Effect on Singlet/Triplet Energy Consumption Process of Thermally Activated Delayed Fluorescence Molecules with Aggregation Induced Emission: A QM/MM Study. Journal of Physical Chemistry Letters 2024, 15, 2436-2446.
2023年
[1] Zou, H.; Liu, H.; Mu, Q.; Zhang, K.; Song, Y.; Lin, L.; Xu, Y.; Wang, C.-K.*; Fan, J.*, Theoretical Perspective for Substitution Effect on Luminescent Properties of Through Space Charge Transfer-Based Thermally Activated Delayed Fluorescence Molecules. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 2023, 285, 121899.
[2] Li, X.F.; Wang, X.F.; Zhang, Q.; Wu, Z.M.; Zhang, K.; Song, Y.Z.; Fan, J.Z.; Wang, C.-K.*; Lin, L.L.*, Theoretical study on thermally activated delayed fluorescent molecules based on space charge transfer. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy. 2023, 288, 122131.
[3] Mu, Q.; Zhang, K.; Liu, H.; Xie, Z.; Song, Y.; Wang, C.-K.; Lin, L.; Xu, Y.*; Fan, J.*, Role of halogen effects and cyclic imide groups in constructing red and near-infrared room temperature phosphorescence molecules: theoretical perspective and molecular design. Physical Chemistry Chemical Physics. 2023, 25, 6659-6673.
[4] Liu, H.; Zhang, K.; Zou, H.; Mu, Q.; Song, Y.; Lin, L.; Xu, Y.; Wang, C. K.*; Fan, J.*, Controllable Construction of Red Thermally Activated Delayed Fluorescence Molecules Based on a Spiro-Acridine Donor. Physical chemistry chemical physics. 2023, 25, 1032-1044.
[5] Wu, Z.M.; Zhang, Q.; Wang, X.F.; Zhang, K.; Li, X.F.; Li, R.; Song, Y.Z.; Fan, J.Z.; Wang, C.K.*; Lin, L.L.*; Wang, Z.J., Multi-Resonance Thermally Activated Delayed Fluorescence Molecules with Intramolecular-lock: Theoretical Design and Performance Prediction. Physical Chemistry Chemical Physics. 2023, 25.
[6] Mu, Q.F.; Liu, H.L.; Song, Y.Z.; Wang, C.-K.; Lin, L.L.; Xu, Y.Y.; Fan, J.Z.*, Theoretical exploration of the bromine substitution effect and hydrostatic pressure responsive mechanism for room temperature phosphorescence. Physical Chemistry Chemical Physics. 2023, 25, 23207-23221.
[7] Liu, S.L.; Liu, S.S., Gao, Y.; Lan, H.; Lin, L.L.; Wang, C.-K.; Fan, J.Z.*; Song, Y.Z.*, Acceptor engineering for modulating circularly polarized luminescence and thermally activated delayed fluorescence properties, Materials Today Chemistry. 2023, 33, 101700.
[8] Zhao, X.; Liu, H.L.; Mu, Q.F.; Xie, Z.; Song, Y.Z.; Lin, L.L.; Fan, J.Z.*; Xu, Y.Y.*; Isomer engineering for red thermally activated delayed fluorescence molecules: Luminescence mechanism study and rational molecular design, Chemical Physics Letters. 2023, 833, 140937.
[9] Liu, H.; Mu, Q.; Zhao, X.; Wang, Y.; Song, Y.; Lin, L.; Wang, C.-K.*; Fan, J.*, Theoretical Perspective for Structural Isomerism Effect on Photoelectric Properties of Organic Room Temperature Phosphorescence Molecules. Materials Today Chemistry 2023, 34, 101814. PDF
2022年
[1] Songsong Liu, Yang Gao, Kai Zhang, Shulei Liu, Hao Lan, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Yuzhi Song*, The mechanism of intramolecular halogen bonding enhanced the quantum efficiency of ultralong organic phosphorescence in the aggregated state, Physical Chemistry Chemical Physics, (2022) 24 (37): 22905-22917.
[2] Yuzhi Song*, Bihe Li, Songsong Liu, Ming Qin, Yang Gao, Kai Zhang, Lili Lin, Chuan-Kui Wang and Jianzhong Fan*, Structure–property relationship study of blue thermally activated delayed fluorescence molecules with different donor and position substitutions: theoretical perspective and molecular design, Journal of Materials Chemistry C, (2022) 10: 4723.
[3] Shulei Liu, Ming Qin, Songsong Liu, Yang Gao, Bihe Li, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Yuzhi Song*, Theoretical perspective for the relationship between molecular structures and circularly polarised thermally activated delayed fluorescence properties, Molecular Physics, (2022) 120: e212738.
[4] Yuzhi Song*, Bihe Li, Songsong Liu, Ming Qin, Yang Gao, Kai Zhang, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Theoretical studies on the excited-state properties of thermally activated delayed fluorescence molecules with aggregation induced emission, Journal of Materials Chemistry C, (2022) 10 (24): 9377-9390.
[5] Yuzhi Song*, Ming Qin, Songsong Liu, Yang Gao, Bihe Li, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Theoretical perspective of relationship between molecular structure and luminescence properties for circularly polarized thermally activated delayed fluorescence, Spectrochimica Acta Part a-Molecular and Biomolecular Spectroscopy, (2022) 275: 121164.
[6] Dong Liu, Lulu Zhang*, Juan Zhao, Qin Zhang, Yuzhi Song, Qingtian Meng*, Quantum and quasiclassical dynamics of C(3P)+H2 ((1)Sigma(+)(g)) -> H(2S) + CH((2)Pi) reaction: Coriolis coupling effects and stereodynamics, Chinese Physics B, (2022) 31 (4): 043102.
[7] Huanling Liu, Kai Zhang, Haipei Zou, Qingfang Mu, Xiaorui Wang, Yuzhi Song, Lili Lin, Chuan-Kui Wang*, Jianzhong Fan*, A theoretical perspective of the relationship between the structures and luminescence properties of red thermally activated delayed fluorescence molecules, Physical Chemistry Chemical Physics, (2022) 24 (28): 17140-17154.
[8] Hong-yu Ma, Cheng-yuan Zhang, Yu-zhi Song, Feng-cai Ma*, Yong-qing Li*, Time-Dependent Quantum Wave Packet Calculation for Reaction S-(P-2)+H-2((1)Sigma(+)(g))-> SH-((1)Sigma)+H(S-2) on Ab Initio Potential Energy Surface, Chinese Journal of Chemical Physics, (2022) 35 (2): 338-344.
[9] Qingfang Mu, Kai Zhang, Haipei Zou, Huanling Liu, Yuzhi Song, Chuan-Kui Wang, Lili Lin*, Jianzhong Fan*, Theoretical insights into room temperature phosphorescence emission with anti-Kasha behavior in aggregate, Dyes and Pigments, (2022) 205: 110560.
[10] Hainan Wang, Yanling Lu, Jiaxin Chen, Yuzhi Song, Chengyuan Zhang*, Yongqing Li*, An accurate many-body expansion potential energy surface for SiH2 (1(1) A ') using a switching function formalism, Physical Chemistry Chemical Physics, (2022) 24 (13): 7759-7767.
[11] Zhimin Wu, Qun Zhang, Xiaofei Wang, Kai Zhang, Xiaofang Li, Qingfang Mu, Yuzhi Song, Jianzhong Fan, Chuan-Kui Wang*, Lili Lin*, Theoretical study and molecular design of thermally activated delayed fluorescence molecules based on intramolecular-locked strategy, Journal of Luminescence, (2022) 251: 119263.
[12] Kai Zhang, Qun Zhang, Muzhen Li, Yuzhi Song, Jianzhong Fan, Chuan-Kui Wang*, Lili Lin*, Theoretical Study on the Light-Emitting Mechanism of Multifunctional Thermally Activated Delayed Fluorescence Molecules, Journal of Physical Chemistry C, (2022) 126 (5): 2437-2446.
[13] Kai Zhang, Xiao Zhang, Jianzhong Fan, Yuzhi Song, Jian Fan, Chuan-Kui Wang*, Lili Lin*, Novel Deep Red Thermally Activated Delayed Fluorescence Molecule with Aggregation-Induced Emission Enhancement: Theoretical Design and Experimental Validation, Journal of Physical Chemistry Letters, (2022) 4711-4720.
[14] Haipei Zou, Huanling Liu, Qingfang Mu, Kai Zhang, Yuzhi Song, Lili Lin, Yuanyuan Xu, Chuan-Kui Wang*, Jianzhong Fan*, Theoretical perspective for substitution effect on luminescent properties of through space charge transfer-based thermally activated delayed fluorescence molecules, Spectrochimica acta. Part A, Molecular and biomolecular spectroscopy, (2022) 285:121899-121899.
2021年
[1]. Yu Zhao, Xixi Cui, Yuzhi Song, Changzhe Zhang, Qingtian Meng*, Photophysical properties of fluorescent nucleobase P-analogues expected to monitor DNA replication, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, (2021) 260: 119926. 2021.05.07.
[2]. Xiao Luo, Wei Shi, Yunfan Yang , Yuzhi Song, Yongqing Li*, Systematic theoretical investigation of two novel molecules BtyC-1 and BtyC-2 based on ESIPT mechanism, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, (2021) 258: 119810. 2021.04.27.
[3]. Yangyang Liang, Wenchao Qiao, Tianli Feng, Baitao Zhang, Yuefeng Zhao, Yuzhi Song, Tao Li*, and Christian Kränkel*, Investigation on the optical nonlinearity of the layered magnesium-mediated metal organic framework (Mg-MOF-74), (2021) 29 (15): 23768-23789. 2021.07.12.
[4]. Hongyu Ma, Chengyuan Zhang, Yuzhi Song, Fengcai Ma*, and Yongqing Li*, Accurate High-Level Ab Initio-Based Global Potential Energy Surface and Quantum Dynamics Calculation for the First Excited State of CH2+, J. Phys. Chem. A., (2021) 125 (25): 5490-5498. 2021.06.17.
[5]. Songsong Liu, Ming Qin, Qi Lu, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Yuzhi Song*, Sensing mechanism of fluorescent sensor to Cu2+ based on inhibiting ultra-fast intramolecular proton transfer process, Spectrochimica Acta Part A,(2021) 254: 119685. 2021.03.10.
[6]. Qi Lu, Ming Qin, Songsong Liu, Lili Lin, Chuan-Kui Wang, Jianzhong Fan*, Yuzhi Song*, Design strategy for blue thermally activated delayed fluorescence: Position and methyl substitutions, CHEMICAL PHYSICS LETTERS, (2021) 764: 138260. 2020.12.10.
[7]. WenYi Zhang, QingTian Meng, ShouBao Gao, YuZhi Song*, Theoretical insight into the vibrational excitation effect of the S+(4S) + H2(X1∑+g) reaction, CHEMICAL PHYSICS LETTERS, (2021) 764: 138257. 2020.12.21.
2020年
[1] Lulu Zhang*, Dong Liu, Yuzhi Song, Feng Gao, Qingtian Meng*, Examining the isotope effect on CH decay and H exchange reactions: H(S-2) + CH(D/T)((2)pi), Phys. Scr, (2021) 96(1): 015404. 2020.11.23.
[2] Yuchen Zhang, Yuying Ma,Kai Zhang, Yuzhi Song, Lili Lin, Chuan-Kui Wang*, Jianzhong Fan*, Solid-state effect on luminescent properties of thermally activated delayed fluorescence molecule with aggregation induced emission: A theoretical perspective, Spectrochim. Acta. A, (2020) 241:118634. 2020.06.22.
[3] Yu Zhao, Songsong Liu, Qingtian Meng, Yuzhi Song*, Investigation of excited state proton transfer mechanism for 2-(benzo[d]thiazol-2-yl)naphthalene-1,3-diol in different solvents, Chem. Phys.,(2020)538:110914. 2020.06.25.
[4] Feiyan Li, Muzhen Li, Jianzhong Fan, Yuzhi Song, Chuan-Kui Wang*, Lili Lin*. Theoretical Study on Thermally Activated Delayed Fluorescence Emitters in White Organic Light-Emitting Diodes: Emission Mechanism and Molecular Design, J. Phys. Chem. A., (2020) 124(37):7526-7537. 2020.08.21.
[5] de Castro, Delvany G., Ballester, Maikel Y*., Yu-Zhi Song*, A global potential energy surface for the ground electronic state of SSiH, J. Phys. B-At Mol. Opt, (2020) 53(17):175203. 2020.07.13.
[6] Jianzhong Fan*, Yuchen Zhang, Yuying Ma, Yuzhi Song, Lili Lin, Yuanyuan Xu*, Chuan-Kui Wang*,The role of intermolecular interactions in regulating the thermally activated delayed fluorescence and charge transfer properties: a theoretical perspective† J. Mater. Chem. C., (2020) 8(25):8601-8612. 2020.05.20.
[7] Jiajun Lu, Xuejian Du, Zhen Li, Yuzhi Song, Chao Zhang*, Jing Yu, Qianqian Peng, Preparation of 3D ZnTiO3/Ag NPs composite as the photocatalytic SERS-active substrate with well reusability, Appl. Optics., (2020) 59(18):5589-5595. 2020.06.17.
[8] Dong Liu, Juan Zhao, Lifei Wang, Yuzhi Song, Qingtian Meng*, Lulu Zhang, Exploring reaction mechanism and vibrational excitation effect in H plus CH (v, j=0) reaction,Chem. Phys. Lett., (2020) 749: 137398. 2020.03.29.
[9] Lulu Zhang, Dong Liu, Daguang Yue, Yuzhi Song, Qingtian Meng*, Dynamics of H(S-2) plus CH(X-2 Pi) reactions based on a new CH2((X)over-tilde(3)A '') surface via extrapolation to the complete basis set limit, J. Phys. B-At Mol. Opt, (2020) 53(9): 095202. 2020.03.30.
[10] Jiajun Lu, Yuzhi Song*, Fengcai Lei, Xuejian Du, Yanyan Huo, Shicai Xu, Chonghui Li, Tingyin Ning, Jing Yu*, Chao Zhang*, Electric Field-Modulated Surface Enhanced Raman Spectroscopy by PVDF/Ag Hybrid, SCI Rep-UK, (2020) 10 (1): 5269. 2020.03.24.
[11] Guijie Zhao, Yunfan Yang , Chengyuan Zhang, Yuzhi Song, Yongqing Li*, The theoretical study of excited-state intramolecular proton transfer of N, N,-bis (salicylidene)-(2-(3″4′-diaminophenyl) benzothiazole), Journal of Luminescence, (2021) 230: 117741. 2020.11.03.
[12] Yuying Ma, Kai Zhang, Yuchen Zhang, Yuzhi Song, Lili Lin, Chuan-Kui Wang*, and Jianzhong Fan*, Effects of Secondary Acceptors on Excited-State Properties of Sky-Blue Thermally Activated Delayed Fluorescence Molecules: Luminescence Mechanism and Molecular Design, J. Phys. Chem. A., (2021) 125 (1): 175-186. 2020.12.29.
2019年
[1]. Qi Lu, Guanyu Jiang, Feiyan Li, Lili Lin,Chuan-Kui Wang, Jianzhong Fan*, Yuzhi Song*, Substitution effect on luminescent property of thermally activated delayed fluorescence molecule with aggregation induced emission: A QM/MM study. Spectrochim. Acta. A, (2020) 229:117964. 2019.12.19.
[2]. Guanyu Jiang, Feiyan Li, Xiangpeng Kong, Jianzhong Fan, Yuzhi Song, Chuan-Kui Wang*, Lili Lin*, Suppression of aggregation caused quenching in U-shaped thermally activated delayed fluorescence molecules: Tert-butyl effect, J. Lumin. (2020) 219:116899. 2019.11.20.
[3]. Feiyan Li, Guanyu Jiang, Muzhen Li Jianzhong Fan, Yuzhi Song, Chuan-Kui Wang*, Lili Lin*, Thermally activated delayed fluorescence emitters with dual conformations for white organic light-emitting diodes: mechanism and molecular design, Phys. Chem. Chem. Phys.,(2020) 22(3):1313-1323. 2019.11.20.
[4]. Songsong Liu, Jiajun Lu, Qi Lu, Jianzhong Fan, Lili Lin, Chuankui Wang*, Yuzhi Song*, Theoretical Study on the Sensing Mechanism of Novel Hydrazine Sensor TAPHP and Its ESIPT and ICT Processes, Front. Chem. (2020) 7:932. 2019.12.23.
[5]. Guanyu Jiang, Feiyan Li, Jianzhong Fan, Yuzhi Song, Chuan-Kui Wang*, Lili Lin*, Theoretical perspective for luminescent mechanism of thermally activated delayed fluorescence emitter with excited-state intramolecular proton transfer,J. Mater. Chem. C., (2020) 8(1):98-108. 2019.11.12.
[6]. Hui Zhang, Songsong Liu, Changzhe Zhang, Jianzhong Fan, Lili Lin, Chuankui Wang*, Yuzhi Song*, The mechanism of the excited-state proton transfer of Salicylaldehyde azine and 2,2 '-[1,4-Phenylenebis{(E)- nitrilomethylidyne}] bisphenol: Via single or double proton transfer,Spectrochim. Acta. A, (2019) 223:117321. 2019.06.26.
[7]. Lulu Zhang*, Daguang Yue, Juan Zhao, Yuzhi Song, Qingtian Meng*, Potential energy curves, spectroscopic constants, and vibrational energy levels of CS+(X-2 n-ary sumation (+)/A(2)pi), Mol. Phys., (2020) 118(2):123103. 2019.06.26.
Qiyuan Cheng, Jingsong Liu, Xucong Zhou, Yuzhi Song and Qingtian Meng*, EPL, 125 (2019) 33001. 2019.03.05.
[8]. Lulu Zhang, Daguang Yue, Juan Zhao, Yuzhi Song & Qingtian Meng*, Potential energy curves, spectroscopic onstants, and vibrational energy levels of CS+(X2Σ+/A2π), Molecular Physics, 2020,118:e1597199. 2019.03.25.
[9]. Da-Guang Yue, Lu-Lu Zhang, Juan Zhao, Yu-Zhi Song, Qing-Tian Meng*,Stereo-dynamics of the reaction C + SH(D,T)(v = 0, j = 0) → H(D,T) + CS based on a recent excited state potential energy surface, Computational and Theoretical Chemistry 1155 (2019) 82–89. 2019.03.27.
[10]. Da-Guang Yue, Lu-Lu Zhang, Juan Zhao, Yu-Zhi Song, Qing-Tian Meng, HCS(A2A″)-based insights into the effect of vibrational excitation on the reactions C+SH (v = 0–20, j = 0) → S+CH, H+CS, The European Physical Journal D, 2019, 73:219 2019.10.24.
[11]. Qi-Yuan Cheng, Yu-Zhi Song and Qing-Tian Meng*,Field-free molecular orientation steered by combination of super-Gaussian and THz half-cycle laser pulses,Chin. Phys. B Vol. 28, No. 11 (2019) 113301. 2019.10.30.
[12]. Yuzhi Song*, Songsong Liu, Jiajun Lu, Hui Zhang, Changzhe Zhang, and Jun Du*, The substituent effect on the excited state intramolecular protontransfer of 3-hydroxychromone, Chin. Phys. B, 2019, 28(9): 093102. 2019.08.30.
[13]. Ting Xu, Jinyu Zhang, Juan Zhao, Yuzhi Song and Qingtian Meng*, Quantum state-to-state dynamics of O+ + H2(ν = 0, j = 0) → OH+ (ν ', j') + H reaction on a global potential energy surface, A letters journal exploring the frontiers of physics, 2019, 126: 53001. 2019.07.12.
[14]. Hui Zhang, Songsong Liu, Changzhe Zhang, Jianzhong Fan, Lili Lin, ChuankuiWang, Yuzhi Song*, The mechanism of the excited-state proton transfer of Salicylaldehydeazine and 2,2'-[1,4-Phenylenebis{(E)- nitrilomethylidyne}] bisphenol: Via single or double proton transfer, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2019, 223: 117321. 2019.06.26.
[15]. Feng Gao, Lulu Zhang, Wenli Zhao, Qingtian Meng*, and Yuzhi Song*, Accurate global potential energy surface for SiH2+(X2A1) and quantum dynamics of related reaction H(2S) + SiH+(X1Σ+), J. Chem. Phys., 2019, 150: 224304. 2019.06.12.
[16]. Songsong Liu, Yu Zhao, Changzhe Zhang, Lili Lina, Yongqing Li*, Yuzhi Song*, The novel excited state intramolecular proton transfer broken by intermolecular hydrogen bonds in HOF system, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy 219 (2019) 164–172. 2019.04.22.
[17]. Yuzhi Song*, Wenyi Zhang, Qingtian Meng and Shoubao Gao,Studies on Coriolis coupling effect on the reaction dynamics of H(2S) + OH+→ O(3P) + H2+(X2Σg+) using the time dependent wave packet method,J. Phys. B, 2019, 52: 105201. 2019.04.24.
[18]. Da-Guang Yue, Lu-Lu Zhang, Juan Zhao, Yu-Zhi Song, Qing-TianMeng*, Stereo-dynamics of the reaction C + SH(D,T)(v = 0, j = 0) → H(D,T) + CS based on a recent excited state potential energy surface, Computational and Theoretical Chemistry, 2019,1155:82-89. 2019.03.27.
2018年
[1]. Feng Gao, Xianlong Wang, Wenli Zhao, Yuzhi Song, Qingtian Meng*,Quantum dynamics calculations for O++H2 (v=0, j=0) → OH+ + H ion molecule reaction on a new potential energy surface, Eur. Phys. J. D (2018) 72: 224. 2018.12.21.
[2]. Lulu Zhang, Shoubao Gao, Qingtian Meng*, Jie Pan, and Yuzhi Song*, Accurate potential energy surface of H2S+(X2A′′) via extrapolation to the complete basis set limit and its use in dynamics study of S+(D2)+H2(X1Σ+g) reaction, THE JOURNAL OF CHEMICAL PHYSICS, 2018, 149:154303. 2018.10.18.
[3]. Lu Lu Zhang, Yu Zhi Song, Shou Bao Gao, and Qing Tian Meng*, Globally Accurate Potential Energy Surface for HCS(A2A″) by Extrapolation to the Complete Basis Set Limit, J. Phys. Chem. A, 2018,122:4390-4398. 2018.04.16.
[4]. Lu Guo, Hongyu Ma, Lulu Zhang, Yuzhi Song* and Yongqing Li*, Accurate global potential energy surface for the ground state of CH2+ by extrapolation to the complete basis set limit, RSC Adv., 2018, 8: 13635-13642. 2018.03.25.
[5]. Yan-Zhen Ma, Yun-Fan Yang,Wei Shi, Yu-Zhi Song* and Yong-Qing Li*, The order of multiple excited state proton transfer in ternary complex of norharmane and acetic acids, Spectrochim. Acta A, 2018, 202:30-35. 2018.05.09.
[6]. Yuzhi Song*, Shuang Liu, Yanzhen Ma, Yunfan Yang, Yongqing Li and Jihua Xua*, Theoretical Investigation on Excited State Intramolecular Proton Transfer of 1-Aryl-2-(furan-2-yl) butane-1, 3-diones Substitutions, J. Molec. Struct. 2018, 1173: 341-344. 2018.04.27.
[7]. Xian-Long Wang, Feng Gao, Shou-Bao Gao, Lu-Lu Zhang, Yu-Zhi Song, and Qing-Tian Meng*, Novel potential energy surface-based quantum dynamics of ion–molecule reaction O+ +D2→OD+ +D, Chin. Phys. B, 2018, 27(4): 043104. 2018.03.10.
[8]. Shuang Liu, Yan-Zhen Ma, Yun-Fan Yang, Song-Song Liu, Yong-Qing Li* and Yu-Zhi Song*, Excited state intramolecular proton transfer mechanism of o-hydroxynaphthyl phenanthroimidazole,Chin. Phys. B, 2018, 27(2): 023103. 2018.02.01.
[9]. Xuemei Lu, Yuchuan Zhai, Meixia Zhang, and Yuzhi Song*, A theoretical study on the ESPT mechanism for a novel Bis-HPBT fluorophore, J. Phys. Org. Chem., 2018: e3821. 2018.02.19.
[10]. Weihua Lin, En Cao, Liqiang Zhang, Xuefeng Xu, Yuzhi Song, Wenjie Liang and Mengtao Sun*, Electrically enhanced hot hole driven oxidation catalysis at the interface of a plasmon–exciton hybrid, Nanoscale, 2018, 10: 5482. 2018.02.09.
[11]. Lulu Zhang, Shoubao Gao, Yuzhi Song and Qingtian Meng*, The manifestation of vibrational excitation effect in reactions C + SH(v = 0–20, j = 0) →H+CS, S+CH, J. Phys. B: At. Mol. Opt. Phys. 51 (2018) 065202 (13pp). 2018.03.01.
[12]. Gao Shoubao, Chen Guomeng, Song Yuzhi, Meng Qingtian, and Xu Qing*, Theoretical insight into the effect of collision energy on the S(3P) + SH(X2Π)→S2(X3Σg ) + H(2S) reaction, Eur. Phys. J. D (2018) 72: 16. 2018.01.18.
[13]. Liu, S., Pan, J., Wei, D., Xu, J., Zhou, Y., & Song, Y. *, Investigation on the mechanism of ESIPT of 2-hydroxy-1-naphthaldehyde-(4-pyridinecarboxylic)- hydrazone and detection of Al3+ ion. Canadian Journal of Physics., 2019, 97: 721–725. 2018.10.29.
[14]. Yuzhi Song*, Shuang Liu, Yunfan Yang, DongmeiWei, Jie Pan, Yongqing Li*, A detecting Al3+ ion luminophor 2-(Anthracen-1-yliminomethyl)-phenol: Theoretical investigation on the fluorescence properties and ESIPT mechanism, Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2019, 208: 309–314. 2018.10.13.
