姓名

Name

薛松

Song Xue

导师类型

Title

博士生导师  PhD Supervisor  and

硕士生导师  Master Supervisor

专业
Discipline

应用化学 Applied Chemistry

药物化学  Pharmaceutical Chemistry

电子邮箱

Email

xuesong@ustc.edu.cn

电话

Telephone

86-22-60214250

地址

Address

天津市西青区宾水西道391号天津理工大学19-215。

School of  Chemistry & Chemical Engineering,, Tianjin University of Technology,  Tianjin 300384, P.R. China

Academic Background学术背景

主要从事有机/无机杂化的太阳能电池的制备、纳米氧化铁制备与可见光催化分解水制氢研究。研究方向：

1. 功能有机染料的设计合成与高效敏化太阳能电池的制备

2. 空穴传输材料设计合成与钙钛矿太阳能电池的研究

3. 光催化分解水制氢、光催化还原CO₂、光催化降解/去除污染物研究

4. 绿色有机合成方法学研究

Research fields:

1.Design and synthesis  of organic dyes for dye-sensitized solar cells.

2.Design  and synthesis of hole-transporting material for perovskite solar cells

3.Nanomaterials for  photocatalytic water splitting and photochemical conversion of CO₂  to methanol.

4.Development of method  for organic synthesis.

Current and Recent Research目前承担的项目

1.纳米块结构的氧化铁薄膜制备、表面修饰及光解水性能研究，编号：21576215国家自然科学基金（2016.1-2019.12）  65万元主持人;

2.基于钴电解质的光敏染料的研制及光伏性能研究编号：21376179国家自然科学基金（2014.1-2017.12）  88万元主持人;

3.染料敏化纳米TiO2可见光处理污染物研究编号：13JCZDJC32400，天津市自然科学基金重点项目（2013.4-2016.3），20万元，主持人.

Research  project:

1.Synthesis of  nanocube-based hematite films with surface modification for efficient solar  water splitting。National Natural Science Foundation of  China;

2.Development of  organic dyes for dye-sensitized solar cells based on cobalt electrolytes.  National Natural Science Foundation of China.

Publications发表文章及著作

1.A tubular perovskite solar cell: improvement of charge separation  at the perovskite/HTM Interface, Xueping Zong,Zhe Sun,*Hui Wang,Jiang  Wang,Mao Liangand Song Xue*, Chemical Communications, 2015,  51, 14076-14079.

2.Nanocube-based hematite photoanode produced in the presence of Na₂HPO₄  for efficient solar water splitting, Kan Liu, Hongyan Wang*, Quanping Wu, Jun  Zhao, Zhe Sun, Song Xue*, Journal of Power Sources 2015, 283,  381-388.

3.New triarylamine sensitizers for high efficiency dye-sensitized  solar cells: Recombination kinetics of cobalt(III) complexes at titania/dye  interface, Weixue Gao, Mao Liang*, Yulin Tan, Min Wang, Zhe Sun *, Song Xue, Journal  of Power Sources 2015, 283, 260-269

4.Nitrogen-doped graphene as a cathode material for dye-sensitized  solar cells: effects of hydrothermal reaction and annealing on  electrocatalytic performance, Yake Zhang, Zhe Sun,* Hui Wang, Yudan Wang, Mao  Liang and Song Xue*, RSC Advances, 2015, 5, 10430-10439.

5.Organic dyes containing dithieno[2,3-d:20,30-d0]-thieno[3,2-b:30,20-b0]dipyrrole  core for efficient dye-sensitized solar cells, Zhihui Wang, Mao Liang,* Yulin  Tan, Liyan Ouyang, Zhe Sun and Song Xue*, J. Mater. Chem. A, 2015,  3, 4865–4874.

6.Engineering of the electron donor of triarylamine sensitizers for  high-performance dye-sensitized solar cells, Qi Xia, Mao Liang*, Yulin Tan,  Weixue Gao, Liyan Ouyang, Gaoyang Ge, Zhe Sun, Song Xue*, Organic  Electronics2015, 17, 285–294.

7.Ultrathin hematite film for  photoelectrochemical water splitting enhanced with reducing graphene oxide,Quanping Wu, Jun Zhao*,  Kai Liu, Hongyan Wang*, Zhe Sun, Ping Li,  Song Xue. International Journal of Hydrogen Energy, 2015, 40,  6763-6770

8.Ultrathin hematite films deposited layer-by-layer on a TiO₂underlayer for  efficient water splitting under visible light, Chuangli  Zhang, Quanping Wu, Xuebin Ke, Juan Wang, Xin Jin, Song Xue ^, *International  Journal of Hydrogen Energy2014, 39,  14604-14612.

9.Novel Triphenylamine Donors with Carbazole Moieties for Organic  Sensitizers toward Cobalt(II/III) Redox Mediators, Yulin Tan, Mao Liang,*  Ziyi Lu, Yequan Zheng, Xinli Tong, Zhe Sun, and Song Xue*, Organic Letters2014, 16, 3978?3981.

10.Judicious design of indoline chromophores for high-efficiency  iodine-free dye-sensitized solar cells, Zhihui Wang, He Wang, Mao Liang,*  Yulin Tan, Fangyi Cheng, Zhe Sun, and Song Xue*, ACS  Applied Materials & Interfaces,2014, 6,  5768-5778.

11.Joint electrical, photophysical, and photovoltaic studies on  truxene dye-sensitized solar cells: impact of arylamine electron donors,  Zhihui Wang, Mao Liang,* He Wang, Peng Wang,* Fangyi Cheng, Zhe Sun, and Xue  Song*, ChemSusChem2014, 7, 795–803.

12.Charge transport limitations of redox mediators in dye-sensitized  solar cells: investigation based on a quasi-linear model, Hui Wang, Zhe Sun,^*  Yake Zhang, Yue Zhang, Mao Liang, Dongdong Jia, and Song Xue^*. Journal of Physical Chemistry C 2014, 118 (1), 60–70.

13. Redox couple related influences of bulky electron donor as  well as spacer in organic dye-sensitized mesoscopic solar cells, Chunbo Wang,  Mao Liang*, Jingjing Huang, Fangyi Cheng, He Wang, Yajun Guo, Song Xue*. Tetrahedron2014, 70, 6203-6210.

14.Effects of different alkyl chains on the  performance of dye-sensitized solar cells with different electrolytes Yue  Zhang, Yufeng Zhang, Zhihui Wang, Mao Liang*, Dongdong Jia, Quanping Wu, Song Xue*, Journal of Power Sources2014,  253, 167-176.

15.Influence of donor and bridge structure in D-A-p-A indoline  dyes on the photovoltaic properties of dye-sensitized solar cells employing  iodine/cobalt electrolyte, Lina Wang, Mao Liang*, Yue Zhang, Fangyi Cheng,  Xuda Wang, Zhe Sun, Song Xue*, Dyes and Pigments2014,  101, 270-279.

16.A sustainable preparation of glycerol carbonate from glycerol and  urea catalyzed by hydrotalcite like solid catalysts, Yongfa Sun, Xinli Tong*,  Zhidong Wu, Jinbiao Liu, Yongtao Yan and Song Xue*, Energy Technology,2014, 2 (3), 263–268.