叶继春 研究员

博士,研究员,博士生导师。所属新能源技术所副所长,曾获得教育部自然科学二等奖、中国光学学会自然科学二等奖等荣誉奖项。2012年8月以“团队人才”加入中科院宁波材料所,组建了一个100余人的科研团队,所从事的研究内容包括新型太阳能电池、第三代半导体材料与器件等。回国后在Joule, Energy & Environmental Science, Advanced Materials,等杂志上发表200余篇论文,发表专著2篇,翻译著作1部,申请专利220余项,授权100余项,  2个项目实现转移转化,其中一个项目获得中科院创投基金投资。课题组先后承担国家重点研发计划(6项)、国家自然科学基金(13项,1项重点)、中科院重大装备项目、以及其它国家、浙江省、宁波市、企业科研项目等70余项。 
研究方向
高效硅基太阳能电池技术和工艺开发;
高效柔性薄膜太阳电池技术和工艺开发;
新型太阳能电池技术。

论文专利
代表性论文
[1] Z. Yang, X. Li, S. Wu, P. Gao, and J. Ye*, texture and truncated-nanopyramid reflector, Optics Letters, 40 (6), 1077-1080, 2015.
[2] P. Gao, J. He, S. Zhou, X. Yang, S. Li, J. Sheng, D. Wang, T. Yu, J. Ye,*, Y. Cui*, Large-Area Nanosphere Self-Assemblies by a Micro-Propulsive Injection Method for High Throughput Periodic Surface Nanotexturing, Nano Letters, 15(7), 4591-4598, 2015.
[3] J. He, P. Gao, J. Sheng, X. Yang, S. Zhou, Z. Ying and J. Ye*, High performance organic/20μm crystalline-silicon heterojunction solar cells, Materials Research Express, 2(6), 065902-065908, 2015.
[4] J. He, P. Gao, M. Liao, X. Yang, Z. Ying, S. Zhou, Y. Cui, J. Ye,*, Realization of 13.6% Efficiency on 20 μm-thick c-Si/PEDOT:PSS Hybrid Heterojunction Solar Cells via Advanced Nanotexturing and Surface Recombination Suppression, ACS Nano, 9(6), 6522-6531, 2015.
[5]X. Yang, S. Zhou, D. Wang, J. He, J. Zhou, X. Li, P. Gao, J. Ye*, Light Trapping Enhancement in a Thin Film with 2D Conformal Periodic Hexagonal Arrays, Nanoscale Research Letters, 10(1), 284-293, 2015.
[6] J. Sheng, K. Fan, D. Wang, C. Han, J. Fang, P. Gao and J. Ye*, Improvement of the surface passviation of SiOx layer for high efficient Si/PEDOT:PSS heterojunction solar cells, ACS Applied Materials & Interfaces, 6(18), 16027-16034, 2014.
[7] C. Han, J. Yang, C. Yan, Y. Li, F. Liu, L. Jiang, J. Ye* and Y. Liu*,The electrochemical self-assembly of hierarchical dendritic Bi2Se3 nanostructures,CrystEngComm, 16(13), 2823-2834, 2014.
[8] P. Gao, H. Wang, Z. Sun, W. Han, J. Li, and J. Ye*, Efficient light trapping in low aspect-ratio honeycomb nanobowl surface texturing for crystalline silicon solar cell applications, Applied Physics Letters 103(25), 253105-253108 , 2013.
[9] F. Tang, X.Wu, S. Ge, J. Ye, H. Zhu, M. Hagiwara, J. Schoenung*, Dry sliding friction and wear properties of B4C particulate-reinforced AL-5083 matrix composites, WEAR, 264(7), 555-561, 2008.
[10] H. Zhang, J. Ye, S. Joshi, J. Schoenung, E. Chin, K. Ramesh*, Rate dependent behavior of hierarchical Al matrix composites, Scripta Materialia, 59(10), 1139-1142, 2008.
[11] H. Zhang, J. Ye, S. Joshi, J. Schoenung, E. Chin, G. Gaonas. K. Ramesh*, Superlightweightnanoengineered aluminum for strength under impact, Advanced Engineer Materials, 9(5), 355-359, 2007.
[12]B. Han, J. Ye, F. Tang, J. Schoenung, E. Lavernia*, Processing and behavior of nanostructured metallic alloys andcomposites by crymilling, Journal of Materials Science, 42(5), 1660-1672, 2007.
[13] J. Ye, B. Han, J, Schoenung*, Mechanical behavior of an Al-matrix composite reinforced with nanocrystalline Al-coated B4C particulates, Philosophical Magazine Letters, 86(11), 721-732, 2006.
[14] H. Zhang, M. Chen, K. Ramesh, J. Ye, J. Schoenung, E. Chin*, Tensile behavior and dynamic failure of aluminum 6092/B4C composites, Materials Science and Engineering A-Structural Materials Properties Microstructure And Processing, 433(1), 70-82, 2006.
[15] J. Ye, B. Han, J. Schoenung*, Technical cost modeling for the mechanical milling at cryogenic temperature(cryomilling), Advanced Engineering Materials, 6(8), 656-664, 2006.
[16] J. He, J, Ye, E. Lavernia, D. Matejczyk, C. Bampton, J. Schoenung*, Quantitative analysis of grain size in bimodal powders by X-ray diffraction an transmission electron microscopy, Journal of Materials Science, 39(23), 6957-6964, 2004.
专利
1.叶继春,王洪喆,高平奇,潘淼,韩灿. 一种介质钝化膜和太阳能电池及其制备方法,2013.08.31,201310390528.X(PCT/CN2014/085612)
2.高平奇,叶继春,韩灿. 一种光电材料表面的纳米结构绒面及其制备方法,2013.10.14,201310480369.2
3.叶继春,高平奇,李思众,杨熹,韩灿.一种单晶硅倒金字塔阵列结构绒面及其制备方法和应用,2014.05.09,201410196601.4
4.叶继春,李思众,高平奇,韩灿. 阵列结构绒面及其制法和应用,2014.05.09,201410196870.0
5.李思众,叶继春,高平奇,韩灿,盛江. 纳米微球单层薄膜的大面积自组装制备装置,2014.05.09,201420239374.4(授权)
6.李思众,叶继春,高平奇,韩灿,盛江.薄膜自组装制备方法及其装置,2015.02.16,201510084323.8
7.叶继春,潘淼,高平奇,韩灿.具有带负电荷抗反射层的太阳电池及其制法,2014.07.01,201410309243.3
8.叶继春,高平奇,盛江,范科,韩灿.一种简单快速的硅表面钝化方法,2014.08.08,201410389994.0
9.叶继春,邬苏东,高平奇,杨映虎,韩灿.等离子体薄膜沉积装置及沉积方法,2014.08.22,201410419057.5
10.叶继春,邬苏东,高平奇,杨映虎,韩灿. 等离子体薄膜沉积装置,2014.08.22,201420479374.1(授权)
11.邬苏东,叶继春,高平奇,杨映虎,韩灿. 硅薄膜的制备方法,2014.08.22,201410419021.7
12.叶继春,孙一灵,高平奇,潘淼,韩灿.复合硅基材料及其制法和应用,2014.09.24,201410493807.3
13.叶继春,潘淼,高平奇,韩灿.晶体硅体少子寿命的测试方法,2014. 11.21,201410673901.7
14.邬苏东,叶继春,高平奇,杨映虎,韩灿,张胜. 电感耦合等离子体喷枪及等离子体设备,2015.05.20,201510259687.5
15.邬苏东,叶继春,高平奇,杨映虎,韩灿,张胜. 电感耦合等离子体喷枪及等离子体设备,2015.05.20,201520328198.6(授权)
16.叶继春,韩灿,邬苏东、高平奇,杨映虎,张胜. 衬底温度的控制方法、装置及薄膜沉积设备,2015.05.20,201510260343.6
17.叶继春,高平奇,廖明墩,应智琴,韩灿. 多晶黑硅制绒处理液、应用其进行多晶硅片制绒的方法以及多晶黑硅制绒品,2015.07.08,201510405297.4
18.廖明墩,叶继春,高平奇,应智琴,韩灿. 基于金刚线切割的硅片的制绒方法、硅片制绒品及硅片制绒预处理液,2015.07.08,201510403859.1
19.应智琴,叶继春,高平奇,韩灿,廖明墩. 基于金刚线切割的硅片的制绒预处理方法及硅片制绒方法,2015.07.08,201510403856.8

会员身份
TMS, MRS,IEEE等多个学术协会的会员以及4种国际杂志的审稿员

相关信息
邮箱:jichun.ye@nimte.ac.cn
电话:0574-87608980
传真:0574-86685043
办公室:新能源所北701

中科院宁波工业技术研究院 新能源技术研究所

材料所公众号