基本信息
刘正新 男 博导 上海微系统与信息技术研究所
电子邮件:z.x.liu@mail.sim.ac.cn
通信地址:上海市长宁路865号
邮政编码:200050

招生信息

   
招生专业
080903-微电子学与固体电子学
080822-能源与电工新材料
085208-电子与通信工程
招生方向
太阳电池材料和器件,太阳电池标准测试和系统应用技术
半导体材料和器件,光传感器
可再生能源产业政策

教育背景

1997-04--2000-03 日本丰桥技术科学大学 博士
1994-04--1997-03 日本丰桥技术科学大学 硕士
1985-09--1989-06 长春光学精密机械学院 学士

工作经历

   
工作简历
2011-02--今 上海微系统与信息技术研究所 研究员
2005-08--今 日本产业技术综合研究所 研究员
2004-09--2005-07 日本立山科学工业株式会社 主任研究员
2001-10--2004-08 日本系统技研株式会社 主任研究员
2000-04--2001-09 日本综合研究大学院大学 JSPS博士后研究员
1989-07--1994-04 湖北省襄樊市激光技术研究所 助理工程师,工程师,副所长

专利与奖励

   
专利成果
[1] 韩安军, 刘正新, 孟凡英, 王光远, 赵文婕. 一种柔性光伏组件及其制备方法. CN: CN113178501A, 2021-07-27.
[2] 张丽平, 姚宇波, 刘正新, 刘文柱, 石建华. 一种高效背反射晶体硅异质结太阳电池及其制备方法. CN: CN113140640A, 2021-07-20.
[3] 石建华, 孟凡英, 刘正新. 一种双面超薄硅基异质结太阳电池柔性光伏组件及制备方法. CN: CN112382685A, 2021-02-19.
[4] 刘文柱, 张丽平, 刘正新, 黄圣磊, 李晓东. 一种用于硅异质结太阳电池生产的单腔PECVD沉积工艺. CN: CN112267105A, 2021-01-26.
[5] 石建华, 孟凡英, 刘正新. 用于制作透明导电氧化物薄膜的镀膜设备及镀膜方法. CN: CN112239847A, 2021-01-19.
[6] 刘正新, 陈仁芳, 张丽平, 吴卓鹏, 李振飞. 非晶薄膜后氢化处理方法及硅异质结太阳电池制备方法. CN: CN109449257B, 2021-01-19.
[7] 孟凡英, 雷茂杰, 许坦奇, 刘正新. 基于电导增量法和粒子群算法的最大功率点追踪控制方法. CN: CN112162589A, 2021-01-01.
[8] 余友林, 高祺, 刘正新, 张雅婷. 光伏器件电容-电压特性曲线测试方法. CN: CN108923750B, 2020-12-18.
[9] 刘文柱, 刘正新, 张丽平, 李振飞, 黄圣磊, 李晓东, 伍小琼. 一种硅异质结太阳电池及其制备方法. CN: CN111952381A, 2020-11-17.
[10] 石建华, 孟凡英, 刘正新. 硅基异质结太阳电池的制备方法及镀膜设备. CN: CN111668349A, 2020-09-15.
[11] 张丽平, 姚宇波, 刘正新, 孟凡英, 石建华, 刘文柱. 一种高效率双面受光柔性硅异质结太阳电池的制备方法. CN: CN111640815A, 2020-09-08.
[12] 刘正新, 孟凡英, 石建华. 一种用于制作透明导电氧化物薄膜的镀膜设备及镀膜方法. CN: CN106340570B, 2019-09-13.
[13] 石建华, 孟凡英, 刘正新. 镀膜设备. CN: CN209328935U, 2019-08-30.
[14] 石建华, 孟凡英, 刘正新. 非晶硅/晶体硅异质结太阳电池. CN: CN209104182U, 2019-07-12.
[15] 刘文柱, 陈仁芳, 吴卓鹏, 张丽平, 孟凡英, 刘正新. 基于磁场干扰等离子体的非晶硅生长方法及装置. CN: CN106282963B, 2019-04-05.
[16] 张雅婷, 高祺, 余有林, 刘正新. 多通道光伏组件户外发电特性与并网衰减状况测试系统. CN: CN106899268B, 2019-02-01.
[17] 高祺, 张雅婷, 刘正新. 光伏独立智能供电系统及供电方法. CN: CN106300329B, 2019-02-01.
[18] 张雅婷, 高祺, 余有林, 刘正新. 多通道光伏组件户外发电特性与并网衰减状况测试系统. 中国: CN206948262U, 2018.01.30.
[19] 刘正新, 祝方舟, 王栋良, 刘金宁. 一种n型硅片热处理方法. 中国: CN105624795B, 2018-05-15.
[20] 刘正新, 孟凡英, 张丽平, 石建华, 俞健, 刘金宁, 刘毓成. 双面受光的晶体硅/薄膜硅异质结太阳电池. 中国: CN207282509U, 2018-04-27.
[21] 刘正新, 高祺, 季良俊, 张雅婷. 一种光伏组件户外发电特性与衰减状况测试系统. 中国: CN106130480B, 2018-02-13.
[22] 王宪, 韩安军, 韦小庆, 黄勇亮, 刘正新. 铜铟镓硒吸收层后处理方法及基于其的太阳电池制备方法. 中国: CN107623046A, 2018-01-23.
[23] 张丽平, 刘正新, 陈仁芳, 吴卓鹏. 不连续结晶硅基薄膜、异质结晶体硅太阳电池及制备方法. 中国: CN107424915A, 2017.12.01.
[24] 柳效辉, 韩安军, 王宪, 黄勇亮, 孟凡英, 刘正新. 一种薄膜太阳能电池缓冲层后处理工艺. 中国: CN105914262A, 2016.08.31.
[25] 俞健, 卞剑涛, 张丽平, 刘毓成, 孟凡英, 刘正新. 具有叠层减反特性的晶体硅异质太阳电池及其制备方法. 中国: CN105895746A, 2016-08-24.
[26] 韩安军, 柳效辉, 黄勇亮, 王宪, 吴敏, 孟凡英, 刘正新. 一种薄膜太阳能电池吸收层碱金属掺入方法. 中国: CN105742412A, 2016-07-06.
[27] 卞剑涛, 祝方舟, 刘正新. 晶体硅太阳电池及其制备方法. 中国: CN104966744A, 2015-10-07.
[28] 刘正新, 孟凡英. 太阳电池串中相邻太阳电池的同侧互联的光伏组件制作方法. 中国: CN104465892A, 2015-03-25.
[29] 张丽平, 孟凡英, 刘正新. 掺氧非晶硅锗薄膜、异质结晶体硅太阳能电池及制备方法. 中国: CN104393121A, 2015-03-04.
[30] 卞剑涛, 端伟元, 俞健, 刘正新. 高效薄膜晶硅太阳电池及其自主能源芯片集成技术. 中国: CN104319316A, 2015-01-28.
[31] 端伟元, 邱羽, 俞健, 卞剑涛, 刘正新. 一种改善多晶硅薄膜质量的前处理工艺. 中国: CN103820767A, 2014-05-28.
[32] 刘金宁, 刘正新, 孟凡英. 一种引入驻极体结构的高效太阳能电池及制备方法. 中国: CN103681889A, 2014-03-26.
[33] 俞健, 邱羽, 孟凡英, 刘正新. 湿法沉积和低温热处理相结合制备异质结太阳电池方法. 中国: CN103137791A, 2013-06-05.
[34] 邱羽, 俞健, 孟凡英, 刘正新. 具有电镀电极的异质结太阳电池及制备方法. 中国: CN103107212A, 2013-05-15.
[35] 周健, 周天之, 孙晓玮, 周舟, 周建华, 李红飞, 刘正新. 一种数据远程采集与管理系统及其实施方法. 中国: CN103002004A, 2013-03-27.
[36] 周健, 孙晓玮, 谈惠祖, 周舟, 周建华, 王伟, 刘正新. 一种高体积比能量密度微能源系统及其制作方法. 中国: CN102347518A, 2012-02-08.

出版信息

   
发表论文
[1] Yang, Yuhao, Liu, Wenzhu, Zhang, Liping, Huang, Shenglei, Li, Xiaodong, Jiang, Kai, Li, Zhenfei, Yan, Zhu, Lan, Shihu, Wu, Xiaoqiong, Ma, Zhixin, Zhou, Yinuo, Liu, Zhengxin. N-type nc-SiOx:H film enables efficient and stable silicon heterojunction solar cells in sodium environment. MATERIALS LETTERS[J]. 2022, 309: http://dx.doi.org/10.1016/j.matlet.2021.131360.
[2] Liu, Yiyang, Shi, Jianhua, Liu, Wenzhu, Huang, Wei, Yan, Zhu, Chen, Shuyi, Meng, Fanying, Liu, Zhengxin. Equiaxed-columnar stacked TCO films for efficient silicon heterojunction solar cells. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS[J]. 2022, 33(14): 10890-10901, http://dx.doi.org/10.1007/s10854-022-08069-0.
[3] Razzaq, Arsalan, Allen, Thomas G, Liu, Wenzhu, Liu, Zhengxin, De Wolf, Stefaan. Silicon heterojunction solar cells: Techno-economic assessment and opportunities. JOULEnull. 2022, 6(3): 514-542, http://dx.doi.org/10.1016/j.joule.2022.02.009.
[4] Jiang, Kai, Yang, Yuhao, Yan, Zhu, Huang, Shenglei, Li, Xiaodong, Li, Zhenfei, Zhou, Yinuo, Zhang, Liping, Meng, Fanying, Liu, Zhengxin, Liu, Wenzhu. Balance of efficiency and stability of silicon heterojunction solar cells. SOLAR ENERGY MATERIALS AND SOLAR CELLS[J]. 2022, 243: http://dx.doi.org/10.1016/j.solmat.2022.111801.
[5] 刘文柱, 石建华, 张丽平, 韩安军, 黄圣磊, 李晓东, 杜俊霖, 孟凡英, 刘正新. Light-induced activation of boron doping in hydrogenated amorphous silicon for over 25% efficiency silicon solar cells. Nature Energy[J]. 2022, [6] Gao, Bing, Shao, Yahui, Liu, Wenzhu, Xiang, Haitao, Yu, Youlin, Liu, Zhengxin. Out-door reliability and degradation of HIT, CIGS, n-type multi-busbar, PERC, and CdTe modules in Shanghai, China. SOLAR ENERGY MATERIALS AND SOLAR CELLS[J]. 2022, 236: http://dx.doi.org/10.1016/j.solmat.2021.111490.
[7] Wu, Zhuopeng, Duan, Weiyuan, Lambertz, Andreas, Qiu, Depeng, Pomaska, Manuel, Yao, Zhirong, Rau, Uwe, Zhang, Liping, Liu, Zhengxin, Ding, Kaining. Low-resistivity p-type a-Si:H/AZO hole contact in high-efficiency silicon heterojunction solar cells. APPLIED SURFACE SCIENCE[J]. 2021, 542: https://www.webofscience.com/wos/woscc/full-record/WOS:000608516100006.
[8] Huang, Shenglei, Liu, Wenzhu, Li, Xiaodong, Li, Zhenfei, Wu, Zhuopeng, Huang, Wei, Yang, Yuhao, Jiang, Kai, Shi, Jianhua, Zhang, Liping, Meng, Fanying, Liu, Zhengxin. Prolonged Annealing Improves Hole Transport of Silicon Heterojunction Solar Cells. PHYSICA STATUS SOLIDI-RAPID RESEARCH LETTERS. 2021, https://www.webofscience.com/wos/woscc/full-record/WOS:000629669900001.
[9] 陈仁芳, 张丽平, 吴卓鹏, 李振飞, 孟凡英, 刘正新. 氢注入在硅异质结太阳电池a-Si:H窗口层中的研究. 太阳能学报[J]. 2021, 42(6): 103-108, http://lib.cqvip.com/Qikan/Article/Detail?id=7105191341.
[10] 张家辉, 刘文柱, 吴卓鹏, 时强, 刘正新. 几何设计对球硅太阳电池性能影响的有限元仿真. 半导体光电[J]. 2021, 42(1): 57-60+115, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2021&filename=BDTG202101010&v=MTIwMzMzcVRyV00xRnJDVVI3dWZZZWRuRnlIZ1dyN0xKeW5mYWJHNEhORE1ybzlFWklSOGVYMUx1eFlTN0RoMVQ=.
[11] Junlin Du, Fanying Meng, Haoxin Fu, Lin Sun, Liping Zhang, Anjun Han, Jianhua Shi, Yi Xie, Zhengxin Liu. Selective rounding for pyramid peaks and valleys improves the performance of SHJ solar cells. ENERGY SCIENCE & ENGINEERING[J]. 2021, 9(9): http://dx.doi.org/10.1002/ese3.900.
[12] Liu, Yiyang, Meng, Fanying, Shi, Jianhua, Huang, Wei, Liu, Wenzhu, Liu, Zhengxin. High mobility Ti, Zr and Ga-codoping In2O3 transparent conductive oxide films prepared at low temperatures. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS[J]. 2021, 32(3): 3201-3210, https://www.webofscience.com/wos/woscc/full-record/WOS:000612282600010.
[13] Huang, Wei, Shi, Jianhua, Liu, Yiyang, Wu, Zhuopeng, Meng, Fanying, Liu, Zhengxin. High-performance Ti and W co-doped indium oxide films for silicon heterojunction solar cells prepared by reactive plasma deposition. JOURNAL OF POWER SOURCES[J]. 2021, 506: http://dx.doi.org/10.1016/j.jpowsour.2021.230101.
[14] 相海涛, 高兵, 赵洁, 刘正新. 单面和双面单晶硅光伏组件的发电性能实证. 太阳能[J]. 2020, 52-61, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2020&filename=TYNZ202005008&v=MTExMTNvOUZiSVI4ZVgxTHV4WVM3RGgxVDNxVHJXTTFGckNVUjdxZVp1ZHRGaURnVnIvSk1UVEZkTEc0SE5ITXE=.
[15] 胡欣, 刘正新. 乘势而上 积极推动光伏国际标准化——访IEC/TC82副主席刘正新. 信息技术与标准化[J]. 2020, 7-8, http://lib.cqvip.com/Qikan/Article/Detail?id=7103066964.
[16] 朱立宏, 孙国瑞, 呼文韬, 李钏, 付增英, 于智航, 刘正新. 太阳能无人机能源系统的关键技术与发展趋势. 航空学报[J]. 2020, 41(3): 85-96, http://lib.cqvip.com/Qikan/Article/Detail?id=7101781699.
[17] 时强, 张雅婷, 余友林, 刘正新. 硅异质结太阳电池的电学性能测试研究. 信息技术与标准化[J]. 2020, 49-53, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDAUTO&filename=DZBZ202009019&v=MzI1NzgzS0lUZkpkTEc0SE5ITXBvOUViWVI4ZVgxTHV4WVM3RGgxVDNxVHJXTTFGckNVUjdxZVp1ZHRGaURnVXI=.
[18] 周杰, 俞健, 马忠权, 刘正新. SHJ太阳电池叠层减反结构及光电性能研究. 太阳能学报[J]. 2020, 41(2): 303-309, http://lib.cqvip.com/Qikan/Article/Detail?id=7101424696.
[19] Zhang, Yating, Yu, Youlin, Meng, Fanying, Liu, Zhengxin. Experimental Investigation of the Shading and Mismatch Effects on the Performance of Bifacial Photovoltaic Modules. IEEE JOURNAL OF PHOTOVOLTAICS[J]. 2020, 10(1): 296-305, https://www.webofscience.com/wos/woscc/full-record/WOS:000535673700039.
[20] Huang, Wei, Shi, Jianhua, Liu, Yiyang, Meng, Fanying, Liu, Zhengxin. Effect of crystalline structure on optical and electrical properties of IWOH films fabricated by low-damage reactive plasma deposition at room temperature. JOURNAL OF ALLOYS AND COMPOUNDS[J]. 2020, 843: http://dx.doi.org/10.1016/j.jallcom.2020.155151.
[21] 王宪, 韩安军, 韦小庆, 孟凡英, 刘正新. CIGSeS薄膜太阳电池的H2S硫化研究. 太阳能学报[J]. 2020, 41(4): 37-43, http://lib.cqvip.com/Qikan/Article/Detail?id=7101890205.
[22] Wang, Ziyu, Zhu, Xuejie, Zuo, Shengnan, Chen, Ming, Zhang, Cong, Wang, Chenyu, Ren, Xiaodong, Yang, Zhou, Liu, Zhike, Xu, Xixiang, Chang, Qing, Yang, Shaofei, Meng, Fanying, Liu, Zhengxin, Yuan, Ningyi, Ding, Jianning, Liu, Shengzhong Frank, Yang, Dong. 27%-Efficiency Four-Terminal Perovskite/Silicon Tandem Solar Cells by Sandwiched Gold Nanomesh. ADVANCED FUNCTIONAL MATERIALS[J]. 2020, 30(4): https://www.webofscience.com/wos/woscc/full-record/WOS:000493814400001.
[23] Li, Zhenfei, Zhang, Liping, Wu, Zhuopeng, Liu, Wenzhu, Chen, Renfang, Meng, Fanying, Liu, Zhengxin. Improved performance of silicon heterojunction solar cells via 3x three-step boron-doping. JOURNAL OF APPLIED PHYSICS[J]. 2020, 128(4): http://dx.doi.org/10.1063/5.0005589.
[24] Liu, Wenzhu, Zhang, Liping, Yang, Xinbo, Shi, Jianhua, Yan, Lingling, Xu, Lujia, Wu, Zhuopeng, Chen, Renfang, Peng, Jun, Kang, Jingxuan, Wang, Kai, Meng, Fanying, De Wolf, Stefaan, Liu, Zhengxin. Damp-Heat-Stable, High-Efficiency, Industrial-Size Silicon Heterojunction Solar Cells. JOULE[J]. 2020, 4(4): 913-927, http://dx.doi.org/10.1016/j.joule.2020.03.003.
[25] Wu, Zhuopeng, Zhang, Liping, Liu, Wenzhu, Chen, Renfang, Li, Zhenfei, Meng, Fanying, Liu, Zhengxin. Role of hydrogen in modifying a-Si:H/c-Si interface passivation and band alignment for rear-emitter silicon heterojunction solar cells. JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS[J]. 2020, 31(12): 9468-9474, http://dx.doi.org/10.1007/s10854-020-03486-5.
[26] 高兵, 相海涛, 邵亚辉, 余友林, 刘正新. 上海地区各种光伏组件户外发电性能比较和衰减原因分析. 太阳能[J]. 2019, 5-11, http://lib.cqvip.com/Qikan/Article/Detail?id=7100630172.
[27] 俞健, 卞剑涛, 刘毓成, 刘正新. 硅异质结太阳电池接触特性及铜金属化研究. 太阳能学报[J]. 2019, 40(7): 1959-1964, http://lib.cqvip.com/Qikan/Article/Detail?id=7002665514.
[28] Wu, Zhuopeng, Zhang, Liping, Chen, Renfang, Liu, Wenzhu, Li, Zhenfei, Meng, Fanying, Liu, Zhengxin. Improved amorphous/crystalline silicon interface passivation for silicon heterojunction solar cells by hot-wire atomic hydrogen during doped a-Si:H deposition. APPLIED SURFACE SCIENCE[J]. 2019, 475: 504-509, http://dx.doi.org/10.1016/j.apsusc.2018.12.239.
[29] 祝方舟, 卞剑涛, 刘正新. n型单晶硅太阳电池中硼离子注入发射极特性研究. 太阳能学报[J]. 2019, 40(6): 1583-1588, http://lib.cqvip.com/Qikan/Article/Detail?id=7002447945.
[30] Yu, Jian, Zhang, Liping, Chen, Tao, Bian, Jiantao, Shi, Jianhua, Meng, Fanying, Huang, Yuelong, Liu, Zhengxin. Dual-Function Light-Trapping: Selective Plating Mask of SiOx/SiNx Stacks for Silicon Heterojunction Solar Cells. SOLAR RRL[J]. 2019, 3(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000460588300014.
[31] 沈磊磊, 孟凡英, 石建华, 刘正新. 高迁移率IWO薄膜特性及其在薄膜硅/晶体硅异质结太阳电池中的应用研究. 太阳能学报[J]. 2018, 39(5): 1329-1334, http://lib.cqvip.com/Qikan/Article/Detail?id=675373392.
[32] Shi, Jianhua, Shen, Leilei, Liu, Yongwu, Yu, Jian, Liu, Jinning, Zhang, Liping, Liu, Yucheng, Bian, Jieyu, Liu, Zhengxin, Meng, Fanying. MoOx modified ITO/a-Si:H(p) contact for silicon heterojunction solar cell application. MATERIALS RESEARCH BULLETIN[J]. 2018, 97: 176-181, http://dx.doi.org/10.1016/j.materresbull.2017.09.005.
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[98] Zhengxin Liu. Carbon doping for p-type GaP and GaPN in molecular beam epitaxy using carbon tetrabromide source. Phys. Stat. Sol. C. 2011, [99] Liu, Zhengxin, Takato, Hidetaka, Togashi, Chiho, Sakata, Isao. Oxygen-atmosphere heat treatment in spin-on doping process for improving the performance of crystalline silicon solar cells. APPLIEDPHYSICSLETTERS[J]. 2010, 96(15): https://www.webofscience.com/wos/woscc/full-record/WOS:000276794100073.
[100] Liu, Zhengxin, Kawanami, Hitoshi, Sakata, Isao. Electrical properties of C-doped p-type GaP and GaPN grown by molecular beam epitaxy. APPLIED PHYSICS LETTERS[J]. 2010, 96(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000273890500030.
[101] Zhengxin Liu. Development of phosphorus spray diffusion for the applications on thin crystalline silicon solar cells. Proc. 24th European Photovoltaic Sol. Energy Conf. 2009, [102] Liu, Zhengxin, Masuda, Atsushi, Kondo, Michio. Investigation on the crystal growth process of spherical Si single crystals by melting. JOURNAL OF CRYSTAL GROWTH[J]. 2009, 311(16): 4116-4122, http://dx.doi.org/10.1016/j.jcrysgro.2009.06.042.
[103] Zhengxin Liu. Investigating minority-carrier lifetime in small spherical Si using microwave photoconductance decay (beta PCD). J. Appl. Phys.. 2008, [104] Liu, Zhengxin, Kuroda, Ryo, Fukuzawa, Yasuhiro, Makita, Yunosuke, Tanoue, Hisao. Doping of beta-FeSi2 Thin Film with Aluminum Prepared by Molecular Beam Epitaxy. APPLIED PHYSICS EXPRESS[J]. 2008, 1(10): https://www.webofscience.com/wos/woscc/full-record/WOS:000260436200007.
[105] Liu, Zhengxin, Tanaka, Miyoko, Kuroda, Ryo, Osamura, Masato, Makita, Yunosuke. Influence of Si/Fe ratio in multilayer structures on crystalline growth of beta-FeSi(2) thin film on Si substrate. APPLIED PHYSICS LETTERS[J]. 2008, 93(2): https://www.webofscience.com/wos/woscc/full-record/WOS:000257796100035.
[106] Liu, Zhengxin, Asai, Koichi, Masuda, Atsushi, Nagai, Takehiko, Akashi, Yoshihiro, Murozono, Mikio, Kondo, Michio. Improvement of the production yield of spherical si by optimization of the seeding technique in the dropping method. JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS[J]. 2007, 46(9A): 5695-5700, https://www.webofscience.com/wos/woscc/full-record/WOS:000249626400005.
[107] Nagai, Takehiko, Liu, Zhengxin, Masuda, Atsushi, Kondo, Michio. Characterization of spherical Si by photoluminescence measurement. JOURNAL OF APPLIED PHYSICS[J]. 2007, 101(10): https://www.webofscience.com/wos/woscc/full-record/WOS:000246891500050.
[108] Zhengxin Liu. Approaches for improving the performances of spherical Si solar cell. Proc. 22nd European Photovoltaic Sol. Energy Conf. 2007, [109] Liu, Zhengxin, Osamura, Masato, Ootsuka, Teruhisa, Kuroda, Ryo, Fukuzawa, Yasuhiro, Otogawa, Naotaka, Nakayama, Yasuhiko, Makita, Yunosuke, Tanoue, Hisao. Effect of a Fe3Si buffer layer for the growth of semiconducting beta-FeSi2 thin film on stainless steel substrate. JOURNAL OF CRYSTAL GROWTH[J]. 2007, 307(1): 82-86, https://www.webofscience.com/wos/woscc/full-record/WOS:000249801600015.
[110] Liu, Zhengxin, Masuda, Atsushi, Nagai, Takehiko, Miyazaki, Takashi, Takano, Miwako, Takano, Masahiro, Yoshigahara, Haruyuki, Sakai, Kazutoshi, Asai, Koichi, Kondo, Michio. A concentrator module of spherical Si solar cell. SOLAR ENERGY MATERIALS AND SOLAR CELLS[J]. 2007, 91(19): 1805-1810, http://dx.doi.org/10.1016/j.solmat.2007.06.008.
[111] Zhengxin Liu. A seeding method with Si powder for the formation of Si spheres in the drop method. J. Appl. Phys.. 2007, [112] Zhengxin Liu. Investigation on the seeding effect of different powders on undercooled Si droplets during free-fall dropping and the performances of spherical Si solar cell. Proc. 2nd Int. workshop on Sci. Tech. of Crystalline Si Sol. Cells. 2007, [113] Zhengxin Liu. A thin film solar cell of high-quality beta-FeSi2/Si heterojunction prepared by sputtering deposition. Sol. Energy Mater. Sol. Cells. 2006, [114] Zhengxin Liu. Improvement of crystallinity and solar cell efficiency of spherical Si by seeding crystallinity techniques. Proc. 4th World Conf. on Photovoltaic Energy Conversion (WCPEC-4). 2006, [115] Zhengxin Liu. Formation of spherical Si by seeding crystallization technique in high-speed dropping and improvement of the performances of spherical Si solar cell. Proc. Renewable Energy. 2006, [116] Zhengxin Liu. Formation of semiconducting beta-FeSi2 films on non-Si substrates. Thin Solid Films. 2006, [117] Kuroda, R, Liu, ZX, Fukuzawa, Y, Suzuki, Y, Ootsuka, T, Wang, SN, Osamura, M, Otogawa, N, Hoshino, Y, Nakayama, Y, Tanoue, H, Makita, Y. Studies of Ga diffusion and the elimination of pinholes in Ga-doped beta-FeSi2 filMS prepared by MBE. OPTICAL MATERIALS[J]. 2005, 27(5): 929-934, https://www.webofscience.com/wos/woscc/full-record/WOS:000227621300040.
[118] Teruhisa Ootsuka, Zhengxin Liu, Masato Osamura, Yasuhiro Fukuzawa, Ryo Kuroda, Yasuhito Suzuki, Naotaka Otogawa, Takahiro Mise, Shinan Wang, Yasushi Hoshino, Yasuhiko Nakayama, Hisao Tanoue, Yunosuke Makita. Studies on aluminum-doped ZnO films for transparent electrode and antireflection coating of β-FeSi 2 optoelectronic devices. THIN SOLID FILMS. 2005, 476(1): 30-34, http://dx.doi.org/10.1016/j.tsf.2004.06.145.
[119] Liu, ZX, Osamura, M, Ootsuka, T, Wang, SN, Fukuzawa, Y, Suzuki, Y, Kuroda, R, Mise, T, Otogawa, N, Nakayama, Y, Tanoue, H, Makita, Y. Doping of beta-FeSi2 films with boron and arsenic by sputtering and its application for optoelectronic devices. OPTICAL MATERIALS[J]. 2005, 27(5): 942-947, https://www.webofscience.com/wos/woscc/full-record/WOS:000227621300042.
[120] Ootsuka, T, Liu, ZX, Osamura, M, Fukuzawa, Y, Otogawa, N, Nakayama, Y, Tanoue, H, Makita, Y. beta-FeSi2 based metal-insulator-semiconductor devices formed by sputtering for optoelectronic applications. MATERIALS SCIENCE AND ENGINEERING B-SOLID STATE MATERIALS FOR ADVANCED TECHNOLOGY[J]. 2005, 124: 449-452, https://www.webofscience.com/wos/woscc/full-record/WOS:000233895800093.
[121] Liu, ZX, Osamura, M, Ootsuka, T, Kuroda, R, Fukuzawa, Y, Mise, T, Otogawa, N, Nakayama, Y, Tanoue, H, Makita, Y. Arsenic doping of n-type beta-FeSi2 films by sputtering method. JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS & EXPRESS LETTERS[J]. 2005, 44(8-11): L261-L264, https://www.webofscience.com/wos/woscc/full-record/WOS:000228307000001.
[122] Zhengxin Liu. Ga-doping for beta-FeSi2 films prepared by MBE. Opt. Mater. 2005, [123] Sawada, T, Liu, ZX, Takagi, N, Watanabe, K, Matsumoto, Y. Reactivity of molecular oxygen: conversion of methanol to formate at low temperatures on Pt(111). CHEMICAL PHYSICS LETTERS[J]. 2004, 392(4-6): 334-339, http://dx.doi.org/10.1016/j.cplett.2004.05.082.
[124] Wang, S, Liu, ZX, Fukuzawa, Y, Osamura, M, Ootsuka, T, Suzuki, Y, Otogawa, N, Nakayama, Y, Tanoue, H, Makita, Y. Formation of beta-FeSi2 microstructures by reactive ion etching using SF6 gas. JAPANESE JOURNAL OF APPLIED PHYSICS PART 1-REGULAR PAPERS BRIEF COMMUNICATIONS & REVIEW PAPERS[J]. 2004, 43(8A): 5245-5246, https://www.webofscience.com/wos/woscc/full-record/WOS:000224841400028.
[125] Otogawa, N, Wang, SN, Kihara, S, Liu, ZX, Fukuzawa, Y, Suzuki, Y, Osamura, M, Ootsuka, T, Mise, T, Miyake, K, Nakayama, Y, Tanoue, H, Makita, Y. Semiconductor-metal phase transition of iron disilicide by laser annealing and its application to form device electrodes. THIN SOLID FILMS[J]. 2004, 461(1): 223-226, http://dx.doi.org/10.1016/j.tsf.2004.02.081.
[126] Liu, ZX, Osamura, M, Ootsuka, T, Wang, SN, Kuroda, R, Fukuzawa, Y, Suzuki, Y, Mise, T, Otogawa, N, Nakayama, Y, Tanoue, H, Makita, Y. Boron doping for p-type beta-FeSi2 films by sputtering method. JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS & EXPRESS LETTERS[J]. 2004, 43(4A): L504-L506, https://www.webofscience.com/wos/woscc/full-record/WOS:000221818600022.
[127] Zhengxin Liu. Reduction of iron diffusion in Si during the epitaxial growth of beta-FeSi2 films by the use of thin template buffer layer. J. Appl. Phys. 2004, [128] Makita, Y, Nakayama, Y, Fukuzawa, Y, Wang, SN, Otogawa, N, Suzuki, Y, Liu, ZX, Osamura, M, Ootsuka, T, Mise, T, Tanoue, H. Important research targets to be explored for beta-FeSi2 device making. THIN SOLID FILMS[J]. 2004, 461(1): 202-208, https://www.webofscience.com/wos/woscc/full-record/WOS:000222477300041.
[129] Zhengxin Liu. Formation of thin beta-FeSi2 template buffer layer for the epitaxial growth of thick film on Si(111) substrate. Thin Solid Films. 2004, [130] Zhengxin Liu. Beta iron-disilicide (?-FeSi2) as an environmentally friendly semiconductor for space use. PROCCANEUS2004CONFMICRONANOTECHNOLOGIES. 2004, [131] Zhengxin Liu. Preparation of plate-like bulk beta iron-disilicide crystals using metal to semiconductor phase transition by heat treatment. Mat. Res. Soc. Symp. Proc. 2003, [132] Zhengxin Liu. A novel beta-FeSi2 thin film solar cell fabricated by sputtering. Proc. 3rd World Conf. Photovoltaic Energy Conversion (WEPEC-3). 2003, [133] Zhengxin Liu. Reaction intermediates in the oxidation of methanol on a Pt (111)-(2beta2)O surface. J. Chem. Phys. 2003, [134] Zhengxin Liu. Electrical and photovoltaic properties of iron silicide/Si heterostructure formed by pulsed laser deposition. Thin Solid Films. 2001, [135] Liu, ZX, Okoshi, M, Hanabusa, M. Formation of beta-FeSi2 films by pulsed laser deposition using iron target. JOURNAL OF VACUUM SCIENCE & TECHNOLOGY A-VACUUM SURFACES AND FILMS[J]. 1999, 17(2): 619-623, https://www.webofscience.com/wos/woscc/full-record/WOS:000079203200044.
[136] Zhengxin Liu. Recent progress in laser ablation – Deposition of iron and iron silicide. Materia Japan. 1999, [137] Zhengxin Liu. Pulsed laser deposition of Si films for solar cell application. Nuclear Instruments and Methods in Phys. Res. B. 1997, [138] Zhengxin Liu. Deposition of diamond-like carbon films by excimer laser using frozen source gases. Mat. Res. Soc. Symp. Proc.. 1996,