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刘生忠国家“千人计划” ( 教授 )

Ph. D., Northwestern University, USA (1992)

博士,美国西北大学

Postdoctor, Argonne National LaboratoryUSA (1992 -1994)

美国阿贡国家实验室博士后

QQC, Inc.Director, R&D,Senior Scientist

研发部主管,高级科学家(1994-1997)

BP Solar/Solarex, Senior Scientist

高级科学家(1997-2003)

United Solar Ovonic, R&D Manager, Senior Scientist (2003-2011)

经理,首席科学家

Professor, Shaanxi Normal University (2012-present)

Professor, Dalian Institute of Chemical Physics (2012-present)

陕西师范大学/大连化学物理研究所,千人计划特聘教授

R&D 100 award (2002)

Tel: +86-(0)29-81530785

E-mail: liusz@snnu.edu.cn

研究方向

1.        High efficiency, low cost thin film solar cell fabrication process development

2.        Thin film nanocrystalline silicon based solar cell research

3.        Nanoscale materials: design, fabrication and application in solar cells, sensors and catalysis

4.        Thin film compound solar cell development

5.        Nano fabrication for light trapping in solar cells using chemical, electrochemical and surface plasmonic processes

6.        Perovskite based solar cells

7.        HIT solar cell development

代表性成果

近年承担项目

1.  高性能、低成本透明导电薄膜(TCO)制备;陕西煤业化工技术研究院有限责任公司;800万元(RMB); 2014年3月1日-2016年1月1日;刘生忠、訾威、肖锋伟、朱学杰。

2.  教育部,“应用表面与胶体化学创新引智基地”, 900万元,2013 – 2015,房喻、张生勇、刘生忠、李正平、刘昭铁、高子伟、张成孝、刘忠文、杨鹏、丁立平、唐艳丽、漆红兰、刘静、王超、薛东。

3.  中央高校项目(陕西师范大学),“新型功能材料及其应用”,编号:GK201101003,75万元,2012 – 1014,项目负责人。

4.  中央高校项目(陕西师范大学),“能源材料与器件”,60万元,2012 – 1014,项目负责人。

近年发表专利

1.  提高太阳电池电流密度和电池效率的方法及电池结构.国内专利.公开号【CN103219401A】

2.  一种毫米长石墨烯带的制备方法. 国内专利.公开号【CN103708441A】

3.  柔性卷曲导电衬底上制备单原子层厚度金属薄膜的方法.国内专利.公开号【CN103556197A】

4.  基底上镀有超薄金属纳米材料薄膜的转移方法. 国内专利.公开号【CN103708441A】

5.  一种利用电磁加热优化透明导电氧化物薄膜质量的方法. 国内专利.公开号【CN103824649A】

6.  一种热处理透明导电薄膜材料的方法. 国内专利.公开号【CN103824648A】

7.  一种超薄金属层催化剂及其用途. 国内专利.公开号【CN103877993A

8.  一种硅系太阳能电池和其制备方法与制备装置以及其表面结构国内专利.公开号【CN103928542A】

近年发表论文

1. Shengzhong Liu, Ying-jie Lu, Manfred M. Kappes and James A. Ibers, The structure of the C60-molecule: X-ray crystal structure determination of a twin at 110K, Science, 254, 408 (1991)

2. R. Meilunas, R.P.H. Chang, Shengzhong Liu and Manfred M. Kappes, ctivated C70 and diamond, Nature, 354, 271 (1991)

3. Development of an alcohol sensor based on ZnO nanorods synthesized using a scalable solvothermal method. Sensors and Actuators B, 185, 735 (2013)

4. High efficiency organic/a-Si hybrid tandem solar cells with complementary light absorptionJournal of Materials Chemistry A, 2, 15303 (2014)

5. Agx@WO3 core-shell nanostructure forLSP enhanced chemical sensors. Scientific Reports.DOI: 10.1038/srep06745.4, 6745 (2014)

6. Millimeter-long multilayer graphene nanoribbonsprepared by wet chemical processing. Carbon, 71,120 (2014)

7. Graphene Oxide - a Surprisingly Good Nucleation Seed and Adhesion promotion Agent for One-Step ZnO Lithography and Optoelectronic Applications, Journal of Materials Chemistry C, 2, 8956 (2014)

8. Diameter regulated ZnO nanorod synthesis and its application in gas sensor optimization. Journal of Alloys and Compounds, 586, 436 (2014).

9. Topology and texture controlled ZnO thin film electrodepositon for superior solar cell efficiency, Solar Energy Materials and Solar Cells, 134,54–59, (2015)

10. One-step preparation of optically transparent Ni-Fe oxide film electrocatalyst for oxygen evolution reaction. Electrochimica Acta, 169,402–408, (2015).

11. Alternating precursor layer deposition for highlystable perovskite films towards efficient solar cells using vacuum deposition. Journal of Materials Chemistry A, DOI: 10.1039/C5TA01824B (2015)

12. High efficiency organic/a-Si hybrid tandem solar cells with complementary light absorption. Journal of Materials Chemistry A, 2, 15303 – 15307(2014)

13. One-step hydrothermal synthesis of monolayer MoS2 quantum dots for highly efficient electrocatalytic hydrogen evolution. Journal of Materials Chemistry A, Advance Article, DOI: 10.1039/C5TA02198G (2015)

14. Effective light trapping by hybrid nanostructure for crystalline silicon solar cells, Solar Energy Materials and Solar Cells, DOI:10.1016/j.solmat.2015.04.019 (2015)