今天是:

席曦

性别:

出生日期:1984.07

职称、职务:副研究员&高级工程师,副院长

电话(手机):1596183305518068421016

【学术简介】

博士,副研究员、高级工程师,硕士研究生导师。江南大学理学院光电系教师,理学院副院长,江苏省新能源物理专业委员会委员、江苏省可再生能源学会会员、江苏省(尚德)光伏技术研究院技术委员会委员。多年来一直从事光伏电池研究工作,有多年的企业研发经历。已在国际国内学术刊物上发表学术论文60多篇,授权发明专利1项、实用新型专利4项;入选并主持完成南京市领军型科技人才计划项目1项;主持国家自然科学基金-青年科学基金项目1项、江苏省基础研究计划(自然科学基金)-青年基金项目1项、主持中央高校基本科研业务费专项资金项目1项、获中国博士后科研基金第67批面上资助(二等)、江苏省博士后科研基金(B类)。


【工作及研究经历】:

2017.04-江南大学理学院副研究员

2020.12-2022.05江南大学化学与材料工程学院(流动站)

无锡无锡尚德太阳能电力有限公司(工作站)博士后

2012.06-2017.04无锡尚德太阳能电力有限公司研发中心高级工程师


【研究领域】

太阳能光伏器件与材料、太阳电池相关装备


【主要论著】(著作和论文)

主要论文:

[1] Study of hydrogenation with electron injection for TOPCon solar cells with different tunneling oxide layersJournal of Renewable and Sustainable Energy 15, 023502 (2023)

[2] The role of hydrogen for crystalline silicon solar cellsJournal Of Optoelectronics And Advanced Materials 25, 5-6, 2023, 228 - 240

[3] Annealing Engineering in the Growth of Perovskite GrainsCrystals 2022, 12, 894

[4] Investigation of ion migration in perovskite solar cells based on photovoltage/current transientOptoelectronics And Advanced Materials – Rapid Communications 16, 5-6, 2022, 220 – 227

[5] Accelerated potential-induced degradation technology for crystalline silicon cellsBull. Mater. Sci. (2022)45:94

[6] Infrared photon-assisted annealing for crystal engineering in perovskite solar cellsBull. Mater. Sci. (2022)45:54

[7] Potential Mechanism of LeTID Dynamic Behavior Dependent on Firing and Hydrogenation with Electron InjectionSilicon (2022) 14:11443–11451

[8] Efficiency enhancement of p-type multi- crystalline solar cells in different efficiency grades by hydrogenation with electron injectionJ. Renewable Sustainable Energy 13, 023501 (2021)

[9] Photo-induced hydrogenation and rapid cooling measure on dislocation clusters of multi-crystalline silicon PERC solar cellsBull. Mater. Sci. (2021)44:48

[10] Study on the bowing of monocrystalline silicon MWT+PERC solar cells with different laser-ablation conditionOptoelectronics And Advanced Materials – Rapid Communications 15, 7-8, 2021, 373 – 380

[11] Hydrogenation efficiency promotion through manipulating temperature-raising time for multi-crystalline silicon PERC solar cellsSuperlattices and Microstructures 151 (2021) 106839

[12] Study on the improvement of p-type multi-crystalline silicon material for solar cells by the hydrogenation with electron injectionBull. Mater. Sci. (2020) 43:104

[13] Impurity mechanism of monocrystalline silicon PERC solar cells stimulated by prelight-induced degradationBull Mater Sci (2020)43:262

[14]Longer hydrogenation duration for large area multi-crystalline silicon solar cells based on high-intensity infrared LEDs. Optics Communications 450 (2019) 252–260.

[15] The Investigation on Hydrogenation Platform for silicon solar cells based on High Intensity Infrared LEDs. Journal of Renewable and Sustainable Energy, 2018, 10: 0135071

[16] The study on the method of monochromatic light photon flux density converting to standard solar illumination used for silicon cell hydrogenationOptoelectronics And Advanced Materials – Rapid Communications 12, 5-6, 2018, 322 – 326

[17]Investigation of fast light-induced degradation of crystal silicon solar cells under the irradiation of a high-intensity monochromatic LED light source, Journal of Renewable and Sustainable Energy, 2017, 9: 053502

[18]The Investigation on the Front Surface Field of Aluminum Rear Emitter N-type Silicon Solar Cells. Solar Energy, 2015, 114: 198-205

[19]The Investigation on the Stratification Phenomenon of Aluminum Rear Alloyed Layer in Silicon Solar Cells. Applied Surface Science, 2015, 339: 116-121

[20]The influence of metallic belt on aluminum back surface field of solar cells during the firing process. Journal of Renewable and Sustainable Energy. 2015, 7: 33107

[21]The Optimizing of Thickness Combination in Organic Solar Cells with the Concept of Effective Exciton Generation Rate. Optoelectronics and Advanced Materials-Rapid Communications. 2015, 9: 646-652

[22]The study on the transport efficiency of effective excitons and relationship with the thickness of active materials. Optoelectronics and Advanced Materials-Rapid Communications. 2015, 9: 1369-1374

[23]The characteristics of the small molecule organic solar cells with PEDOT:PSS/LiF double anode buffer layer system. Solar Energy Materials and Solar Cells, 2010, 94: 623-628

[24]The investigation of the stability and optimal encapsulation time for ITO/CuPc/C60/ Al bilayer cells. Solar Energy Materials and Solar Cells, 2010, 94: 924-929

[25]A comparative study on the performances of small molecule organic solar cells based on CuPc/C60 and CuPc/C70. Solar Energy Materials and Solar Cells, 2010, 94: 2435-2441


【科研、教学项目】

科研项目:

1.国家自然科学基金-青年科学基金项目,晶体硅太阳电池光诱导氢再生过程中氢键配位机制的研究,主持

2.江苏省基础研究计划(自然科学基金)-青年基金项目,晶体硅太阳电池光诱导氢再生效用及可靠性的研究,主持。

3.中央高校基本科研业务费专项资金,基于傅里叶变换红外光谱的晶体硅太阳电池氢钝化效果检测的研究,主持。

4.南京市“领军型科技人才计划”,全固态光源超大有效辐照面积太阳模拟器,主持。

5.中国博士后科学基金面上资助(67),晶体硅太阳电池氢钝化缺陷修复技术的研究

6.江苏省博士后科研资助计划(B),晶体硅太阳电池氢化处理抑制衰减的研究,主持


教学项目:

《光伏技术及系统》,江南大学产教融合一流课程。


【科研、教学成果及获奖】

科研获奖:

1. 2018年中国商业联合会科学技术奖全国商业科技进步奖二等奖,具备高转换效率与高稳定性的背钝化晶体硅太阳电池制备技术

2. 2019年度江苏省科学技术奖三等奖,稳定高效晶体硅PERC太阳电池制备技术

3.2019年江苏省光伏科学技术奖三等奖,低衰减PERC电池产业化制备技术

4. 2019年中国可再生能源学会科学技术进步奖三等奖,稳定高效晶体硅PERC太阳电池制备技术

5.2020年中国可再生能源学会科学技术进步奖二等奖,高功率低衰减PERC半片组件产业化技术

6. 2020年江苏省光伏科学技术奖一等奖,稳定高效背钝化半片太阳能电池组件产业化技术

7. 2021年江苏省光伏科学技术奖三等奖,高功率高可靠性全黑美学建筑一体化组件

8.2021“科创中国”新能源技术应用案例库收录,高功率低衰减PERC半片组件产业化技术应用案例

教学获奖:

1. 2018年首届全国大学生可再生能源科技竞赛一等奖,晶体硅太阳电池快速光致衰减检测处理装置指导教师

2.2023年第五届全国大学生可再生能源优秀科技作品竞赛一等奖,面扫型瞬态光电检测技术指导教师


【在读硕、博士人数】

硕士5

【已毕业硕、博士人数】

硕士3

【以上资料更新日期】

202310


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