孙美玲

发布者:物光学院发布时间:2021-07-22浏览次数:3065

 

»姓名:孙美玲

»系属:物理学系

学位:博士

»职称:副教授

»专业:凝聚态物理

»导师类别:硕导

»电子邮箱:sunml@sdut.edu.cn

»通讯地址:山东省淄博市张店区,伟德国际1946源于英国

»概况

研究方向

.       1. 薄膜太阳能电池方向光电材料与器件的研究;

2. 光、电催化方向半导体材料与器件的研究。

教育经历

2011.09-2014.06,吉林大学,超硬材料国家重点实验室, 凝聚态物理,博士;

2009.09-2011.06,吉林大学,超硬材料国家重点实验室, 凝聚态物理,硕士;

2005.09-2009.06,曲阜师范大学,物理工程学院,物理学,学士。

工作经历

2021.01-至今,伟德国际1946源于英国,bevitor伟德,副教授;

2014.07-2020.12,伟德国际1946源于英国,bevitor伟德,讲师;

2019.04-2019.10,新加坡南洋理工大学,School of Physical & Mathematical Sciences,访问学者。

学术兼职

Applied Surface ScienceJournal of Alloys and Compounds等期刊审稿人。

主讲课程

《半导体物理》、《热学》、《功能材料与器件》等本科生和研究生课程。 

指导研究生及博士后

全程指导研究生5人,已毕业2人。 

承担项目

一、科研项目

1. 国家自然科学基金青年基金项目,No. 61904098,基于TiO2薄膜表面微结构优化的高负载质量Zn-Cu-In-Se/TiO2光阳极的可控制备及光电特性研究,2020/01-2022/12,主持;

2. 山东省自然科学基金青年基金项目,No. ZR2019QF018,钙钛矿太阳能电池活性层及界面性质的压力调控及机制研究,2019/07-2022/06,主持;

3. 山东省优秀中青年科学家科研奖励基金项目,No. ZR2016FB16,三维分级结构TiO2薄膜的微观结构优化及其在太阳能电池中的光电特性研究,2016/11-2018/10,主持;

4. 横向课题:FTO电极元件的设计与开发,主持;

5. 山东省自然科学基金青年基金项目,No.ZR2015AQ010,磷灰石型硅酸镧材料的高压结构相变及其对电学性能的影响研究,2015/07-2017/06,参与;

6. 山东省高等学校科技计划项目,No.J18KA242,钙钛矿MAPbI3物性的高压优化及其在太阳能电池上的应用研究,参与。

二、教研项目

    1. 半导体物理课程思政项目,伟德国际1946源于英国,2020.

获奖情况

一、教学奖励

2020年度,伟德国际1946源于英国教学质量奖。

二、指导员工获奖

        1. 绿色、高负载质量ZnCuInSe/ZnO/TiO2量子点敏化太阳能电池的可控制备及其光电特性研究,山东省老员工创新训练计划项目,2020

2. 三维分级结构TiO2/ZnO/CdS太阳能电池的制备及其光电特性研究,国家级老员工创新训练计划项目,2019

3. 图书馆服务机器人,伟德国际1946源于英国第十五届挑战杯老员工竞赛,一等奖,2017

荣誉称号

   2020年度,伟德国际1946源于英国双百工程四层次人才

论文

一、科研论文

1. Weichong   Kong, Yunlong Zhao, Jingyue Xuan, Zhaotan Gao, Jun Wang, Shugang Tan, Fuchao   Jia, Zhaolong Teng, Meiling Sun*, Guangchao Yin*, Synchronous etching and W-doping for 3D CdS/ZnO/TiO2   hierarchical heterostructure photoelectrodes to significantly enhance the   photoelectrochemical performance, Applied   Surface Science, 2021, 537: 147998.

2. Guodong Zhao, Jingyue Xuan, Qianqian Gong, Lili Wang, Juanjuan Ren, Meiling Sun, Fuchao   Jia, Guangchao Yin*, and Bo Liu*, In Situ Growing Double-Layer TiO2   Nanorod Arrays on New-Type FTO Electrodes for Low-Concentration NH3   Detection at Room Temperature, ACS Appl.   Mater. Interfaces,2020, 12: 8573-8582.

3. Meiling Sun, Xiaolin   Liu, Guodong Zhao, Weichong Kong, Jingyue Xuan, Shugang Tan, Yuping Sun,   Shuli Wei, Junfeng Ren, Guangchao Yin*, Sn4+ doping combined with   hydrogen treatment for CdS/TiO2 photoelectrodes: An efficient   strategy to improve quantum dots loading and charge transport for high   photoelectrochemical performance. Journal of   Power Sources, 2019, 430: 80-89.

4. Xiaolin   Liu, Weichong Kong, Guodong Zhao, Jingyue Xuan, Yunlong Zhao, Tong Zhou,   Junshan Xiu, Jun Wang, Meiling Sun*, Guangchao Yin*, Enhanced CdS quantum dots loading density and charge   transport by Sn4+ doping improve the photoelectrochemical performance   of TiO2 nanosheets with highly exposed {001} facets, Applied Surface Science, 2019, 486: 28-36.

5. Meiling Sun, Weichong   Kong, Yunlong Zhao, Xiaolin Liu, Jingyue Xuan, Yunyan Liu, Fuchao Jia,   Guangchao Yin, Jun Wang*, and Junkai Zhang*, Improving Photocatalytic   Degradation Activity of Organic Pollutant by Sn4+ Doping of   Anatase TiO2 Hierarchical Nanospheres with Dominant {001} Facets. Nanomaterials, 2019, 9: 1603.

6. Guodong   Zhao, Meiling Sun, Xiaolin Liu, Jingyue Xuan, Weichong Kong, Ruina Zhang, Yuping Sun,   Fuchao Jia, Guangchao Yin*, Bo Liu**, Fabrication of CdS quantum dots   sensitized ZnO nanorods/TiO2 nanosheets hierarchical   heterostructure films for enhanced photoelectrochemical performance, Electrochimica Acta, 2019, 304:   334-341.

7. Ruina   Zhang, Meiling Sun, Guodong Zhao, Guangchao Yin*, Bo Liu*, Hierarchical Fe2O3   nanorods/TiO2 nanosheets heterostructure: Growth mechanism,   enhanced visible-light photocatalytic and photoelectrochemical performances, Applied Surface Science, 2019, 475: 380-388.

8. Guodong   Zhao, Jingyue Xuan, Xiaolin Liu, Fuchao Jia, Yuping Sun, Meiling Sun, Guangchao   Yin*, Bo Liu*, Low-Cost and High-Performance ZnO Nanoclusters Gas Sensor   Based on New-Type FTO Electrode for the Low-Concentration H2S Gas Detection, Nanomaterials, 2019, 9: 435.

9. Guangchao   Yin, Guodong Zhao, Hong Yin, Fuchao Jia, Qiang Jing, Shenggui Fu, Meiling Sun*, Wei Gao*,   Low-temperature synthesis of apatite-type La9.33Ge6O26   as electrolytes with high conductivity. Chinese   Physics B,2018, 27(4): 048201.

10. Guangchao   Yin, Hong Yin, Xin Wang, Meiling Sun, Shenggui Fu, Wei Gao*, Subtle high-pressure behaviors of apatite-type   La9.33Ge6O26, Journal of   Alloys and Compounds, 2018, 735: 750-755.

11. Junkai   Zhang, Yanzhang Ma, Meiling Sun, Guangchao Yin*, Jinghai Yang*, Structural and electrical properties   of InN hollow nanotubes under high pressure, Materials   Letters, 2018, 213: 306-310.

12. Guangchao   Yin, Hong Yin, Meiling Sun, Wei Gao*, Pressure-induced structural evolution of apatite-type La9.33Si6O26,   Chin. Phys. B, 2018, 27: 018202.

13. Guangchao   Yin, Meiling Sun*, Yunyan Liu, Yuping Sun, Tong Zhou, Bo Liu, Performance improvement in   three-dimensional heterojunction solar cells by embedding CdS nanorod arrays   in CdTe absorbing layers, Solar Energy   Materials & Solar Cells, 2017, 159:   418-426.

14. Junkai   Zhang, Ji Qi, Yanzhang Ma, Tingjing Hu, Jiejuan Yan, Feng Ke, Xiaoyan Cui,   Yang Gao, Meiling Sun*, Chunxiao Gao*, Correlation between the structural change and the   electrical transport properties of indium nitride under high pressure. Physical Chemistry Chemical Physics,2017, 19:   26758-26764.

15. Meiling Sun, Wuyou Fu,   Qian Li, Guangchao Yin, Kailin Chi, Jinwen Ma, Yannan Mu, Yanli Chen, Shi Su,   Haibin Yang*. Embedded CdS nanorod arrays in PbS absorber layers: Enhanced   energy conversion efficiency in thin film solar cells, RSC Advances, 2014, 4:   7178-7184.

16. Guangchao   Yin, Hongyang Zhu, Xiaoxin Wu, Linhong Zhong, Meiling Sun, Ridong Cong, Jian Zhang, Wei Gao*, Qiliang Cui, High-pressure phase   transition and unusual compressibility of apatite-type La10Si6O27,   Journal of Alloys and Compounds, 2014, 86: 279-284.

17. Guangchao   Yin, Hong Yin, Xin Wang, Meiling Sun, Linhong Zhong, Ridong Cong, Hongyang Zhu, Wei Gao*, Qiliang Cui, Mg   Doping Effect on High-Pressure Behaviors of Apatite-type Lanthanum Silicate, Journal of Alloys and Compounds, 2014, 611: 24-29.

18. Guangchao   Yin, Hong Yin, Meiling Sun, Linhong Zhong, Junkai Zhang, Ridong Cong, Wei Gao*, Qiliang Cui, New   approach to improve the conductivity of apatite-type lanthanum germanate La9.33Ge6O26   as electrolyte for IT-SOFCs, RSC Advances,   2014, 4: 15968-15974.

19. Guangchao   Yin, Linhong Zhong, Meiling Sun, Junkai Zhang, Xiaojun Xie, Ridong Cong, Wei Gao*, Qiliang Cui,   Crystal structure and ionic conductivity of Mg doped apatite-type lanthanum   silicates La10Si6-xMgxO27-x (x=   0-0.4), Chinese Physics B, 2014, 23: 048202.

20. Meiling Sun, Wuyou Fu,   Qian Li, Guangchao Yin, Kailin Chi, Xiaoming Zhou, Jinwen Ma, Lihua Yang,   Yannan Mu, Yanli Chen and Haibin Yang*. Facile fabrication of CdS nanorod   arrays on the transparent conducting substrates and their   photoelectrochemical properties, Journal of   Crystal Growth, 2013, 377: 112-117.

21. Meiling Sun, Wuyou Fu*,   Haibin Yang, Yongming Sui, Bo Zhao, Guangchao Yin, Qian Li, Hui Zhao and   Guangtian Zou. One-step synthesis of coaxial Ag/TiO2 nanowire arrays on   transparent conducting substrates: Enhanced electron collection in   dye-sensitized solar cells, Electrochemistry   Communications, 2011, 13: 1324-1327.

专利

1. 高伟,尹广超,殷红,仲林红,孙美玲,丛日东,谢晓君,高秀华,崔啟良,磷灰石结构锗酸镧电解质粉体及其低温熔盐制备方法,中国,201310016010.X

2. 高伟,尹广超,殷红,朱品文,仲林红,孙美玲,丛日东,陶强,崔啟良,致密的锗酸镧电解质片体的热高压制备法,中国,201310016017.1

3. 高伟,尹广超,仲林红,谢晓君,丛日东,黄大海,孙美玲,崔啟良,姜殿武,氧磷灰石结构锗酸镧电解质材料粉体的低温制备方法,中国,201210115119.4

4. 高伟,尹广超,仲林红,谢晓君,丛日东,黄大海,孙美玲,崔啟良,姜殿武,氯化锂熔盐法制备氧磷灰石结构硅酸镧电解质材料粉体,中国,201210115126.4

5. 高伟,仲林红,尹广超,谢晓君,丛日东,孙美玲,崔啟良,La9.33Ge6O26电解质材料粉体的LiCl熔盐制备法,中国,201210450350.9