刘生忠 男 博导 大连化学物理研究所
电子邮件：szliu@dicp.ac.cn
通信地址：00
邮政编码：


研究领域纳米材料、薄膜材料、太阳能光伏材料、电光薄膜的电化学沉积、激光表面处理和光伏技术的开发、放大和生产。
招生信息

招生专业 物理化学（含：化学物理）



招生方向 高效薄膜太阳电池


教育背景 1989-09--1992-07 美国西北大学 博士学位
1983-09--1986-07 兰州大学 硕士
1979-09--1983-07 陕西师范大学 学士


学历及学位1983年获陕西师范大学理学学士学位
1986年获兰州大学理学硕士学位
1992年获美国西北大学工学博士学
工作经历1.大连化学物理研究所/陕西师范大学，“****”特聘教授 (2011–present)
2.United Solar Ovonic LLC, Manager, Senior Scientist (2003 – 2011)
3.BP Solar, Senior Scientist/Laser Process/Safety Officer (1998 – 2003)
4.SI Diamond Technology, Inc., Projector Manager (1997 – 1998)
5.QQC, Senior Scientist, Director of Applied Sciences Department (1994-1997)
6.Argonne National Laboratory, Postdoctoral Fellow (1992 – 1994)
7.Northwestern University, Research and Teaching Assistant (1989 – 1992)
8.Research and Teaching Faculty, Lanzhou University, China (1986 – 1989)
教授课程 太阳能电池的发展与进程
专利与奖励已经产业化的专利发明:
PowerViewTM - 半透明太阳能光伏发电板 （BP 注册商标：PowerViewTM）
使用专利：
（1） ** Method of Manufacturing Thin Film Photovoltaic Modules
（2） ** Partially Transparent Photovoltaic Modules
2. 金刚石薄膜
使用专利：
（1）** Diamond Film Growth Argon-Carbon Plasmas
（2） ** Diamond Film Growth From Fullerene Precursors
3.超轻太阳能光伏发电薄膜电池
使用专利：
（1）GB** Ultra Lightweight Photovoltaic Device and Method For Its Manufacture
（2）** Ultra Lightweight Photovoltaic Device and Method For Its Manufacture
4. 低温激光焊接材料
使用专利：
** Brazing Paste
5. 超低成本、高光电性能（高透光，高导电）ZnO 薄膜的电化学制造工艺

所获奖励:
世界最佳发明奖 - R&D 100 award (2002) – “Oscars of Invention”.
BP （英国石油公司）最佳成果奖，BP Helios award 2002 commended.
专利成果 （1） 一种太阳能电池与轻便储能设备的集成组件及其控制方法，发明，2003，第1作者，专利号：**5.X
（2） 一种碲化镉/硫化镉太阳能电池，发明，2012，第1作者，专利号：CN**7.2
（3） 一种叠层太阳能电池，发明，2014，第1作者，专利号：**3.X
（4） 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，发明，2014，第1作者，专利号：CN**3.X
（5） 一种柔性薄膜太阳能电池的结构和制备工艺，发明，2003，第1作者，专利号：CN**1.8

发表论文

主要论文：

1. High-Efficiency, Multijunction nc-Si:H-Based Solar Cells at High Deposition Rate，IEEE JOURNAL OF PHOTOVOLTAICS， 2（2）99 2012.

2. 12.0% Efficiency on Large-Area, Encapsulated,Multijunction nc-Si:H-Based Solar Cells，IEEE JOURNAL OF PHOTOVOLTAICS， 2（2）104 2012.

3. Science, 254, 408 (1991), "The Structure of the C60 　molecule: X-ray crystal structure determination of a twin at 110K."

4. Nature, 354, 271 (1991), "Activated C70 and diamond”.

5. Chem. Phys. Lett., 185, 75 (1991), "Transmission electron microscopy of chromatographically purified solid state C60 and C70"

6. Thin Solid Films, 216, 142, (1992), "STM characterization of C70 thin films"

7. Applied Physics letters, 59, 3461 (1991), "Nucleation of diamond films on surfaces using carbon clusters".

8. J. Applied Physics, 70, 5128 (1991), "Infrared and Raman spectra of C60 and C70 solid films at room temperature".

9. Applied Physics Letters, 60, 810 (1992), "Large second - harmonic response of C60 thin films”.

10. Angew. Chem. Int. Ed. Engl. 31, 640 (1992), "The structure of C60: orientational disorder in the low-temperature modification of C60”.

11. Angewandte Chemie, German Edition, 104, 667 (1992).

12. J. Materials Research, 7, 2440 (1992), "Transmission electron microscopy of C70 single crystals at room temperature”.

13. “Technology Maturation of Thin Film a-Si:H Alloy Based Solar Cells on Polymer Substrate”, Space Power Workshop, Los Angeles, CA (April 20-23, 2009).

14. “High Efficiency Ultra Lightweight a-Si:H/a-SiGe:H/a-SiGe:H Triple-Junction Solar Cells on Polymer Substrate Using Roll-to-roll Technology”, Proc. 33rd IEEE Photovoltaic Specialists Conference, San Diego, CA (2008).

15. “Advances in thin film a-Si:H alloy based triple-junction solar cells on polymer substrate for space and stratospheric applications”, Space Power Workshop, Manhattan Beach, CA (April 21 – April 24, 2008).

16. “Advances in Flexible, Ultra Lightweight Monolithically Integrated a-Si:H Based Triple-Junction PV Modules Made Using Roll-To-Roll Deposition”, 34th IEEE Photovoltaic Specialists Conference, Philadelphia (June 7-12, 2009).

17. “Coating and interconnect development for a-Si:H/a-SiGe:H/a-SiGe:H triple-junction solar cells on polymer substrate for space and stratospheric applications”, Proc. 33rd IEEE Photovoltaic Specialists Conference, San Diego, CA (2008).

18. “High efficiency large area multi-junction solar cells incorporating a-SiGe:H and nc-Si:H using MVHF technology”, 34th IEEE PVSC, 2009, pp. 2159-2164.

19. “USO Space Coating”, AFRL Coverglass, Adhesives and Coatings Workshop, Albuquerque, NM (November 5-6, 2008).

20. “High Efficiency, Large Area, Nanocrystalline Silicon Based, Triple-Junction Solar Cells”, Mat. Res. Soc. Symp. (2011).

21. “High Rate, Solution Grown ZnO For a-Si:H Based Solar Cell Application”，37th IEEE PVSC (2011).

22. Appl. Phys. Lett., 64, 1502 (1994) "Fullerenes as precursors for diamond film growth without hydrogen or oxygen addition”.

23. J. Appl. Phys., 75, 1758 (1994) "Buckyball microwave plasmas: fragmentation and diamond-film growth”

24. J. Vac. Sci. Tech. A 12, 1491 (1994), “Deposition and characterization of nanocrystalline diamond films”

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

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

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

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

29. 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)

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

31. Topology and texture controlled ZnO thin film electrodepositon for superior solar cell efficiency, Solar Energy Materials and Solar Cells, 134,54–59, (2015)
32. One-step preparation of optically transparent Ni-Fe oxide film electrocatalyst for oxygen evolution reaction. Electrochimica Acta, 169,402–408, (2015).

33. 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)

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

35. 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)

36. 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)
发表论文 （1） 一步法制备光学透明的Ni-Fe氧化物电催化剂用于放氧反应，One-step preparation of optically transparent Ni-Fe oxide film electrocatalyst for oxygen evolution reaction，Electrochimica Acta，2015，通讯作者
（2） 一步水热法合成单层的MoS2量子点用于有效的电催化产氢反应，One-step hydrothermal synthesis of monolayer MoS2 quantum dots for highly efficient electrocatalytic hydrogen evolution，Journal of Materials Chemistry A，2015，通讯作者
（3） 高效有机/无机混合型串联太阳能电池弥补光吸收，High efficiency organic/a-Si hybrid tandem solar cells with complementary light absorption，Journal of Materials Chemistry A，2014，通讯作者
（4） 采用湿化学法制备毫米长石墨烯带，Millimeter-long multilayer grapheme nanoribbonsprepared by wet chemical processing，carbon，2014，通讯作者
（5） 高效有机/无机混合型串联太阳能电池弥补光吸收，High efficiency organic/a-Si hybrid tandem solar cells with complementary light absorption，Journal of Materials Chemistry A，2014，通讯作者
（6） 石墨烯氧化物-一个令人惊叹好的成核种子和附着力促进一步法进行氧化锌光刻技术和光电应用，Graphene Oxide - a Surprisingly Good Nucleation Seed and Adhesion Promotion Agent for One-Step ZnO Lithography and Optoelectronic Applications，Journal of Materials Chemistry C，2014，通讯作者

指导学生已指导学生

贾玉帅 博士研究生 070304-物理化学

现指导学生

朱剑 博士研究生 070304-物理化学

王旺银 博士研究生 070304-物理化学

陈政 博士研究生 070304-物理化学

李政 博士研究生 070304-物理化学

秦炜 博士研究生 070304-物理化学

张丽晓 硕士研究生 070304-物理化学

张旭 硕士研究生 070304-物理化学

张静 博士研究生 070304-物理化学