张瑜
来源:   作者:   点击数:   日期:2023/10/12
职务名称 讲师

张瑜  讲师

 

个人介绍:

张瑜,工学博士,云顶3118网站讲师。2011年进入中南大学材料科学与工程专业攻读本科学位。同年参与中南大学与澳大利亚莫纳什大学(Monash University)的中澳联合培养项目,在2016年同时获得中南大学与莫纳什大学授予的荣誉学士学位证书。2015年进入澳大利亚新南威尔士大学的光伏与可再生能源工程学院,于2017年获得光伏太阳能工程的硕士学位(优秀)证书。其后,师从原子沉积氧化铝的开创者Prof Bram Hoex 攻读博士学位,并于2022年7月获得光伏工程的博士学位。2023年10月加入云顶3118网站任讲师,主要研究方向包括:黑硅太阳能电池的制备与优化,黑硅太阳能电池的光学损失与材料缺陷研究硅太阳能电池的光学模拟硅太阳能电池失效分析,叠层太阳能电池的失效分析,等等。

 

教育背景:

2018.02-2022.07 新南威尔士大学(澳大利亚悉尼),光伏工程,博士

2016.03-2017.12 新南威尔士大学(澳大利亚悉尼),光伏工程,硕士

2014.02-2015.12 莫纳什大学(澳大利亚墨尔本),材料科学与工程,本科

2011.09-2013.11 中南大学,材料科学与工程,本科

 

工作经历:

2023.10-至今         云顶3118网站,3118云顶集团,讲师

2019.07-2023.07      新南威尔士大学(澳大利亚悉尼),光伏与光伏与可再生能源工程学院,助理研究员(兼职)

 

主要荣誉:

2020年:Australia’s top 40 young researchers, awarded by Early Achievers Leaderboard, The Australian Research Special Issue. Research September 2020 — Contents (theaustralian.com.au)

2019年:Best Poster award entitled “Black Silicon Characterisation with Advanced Electron Microscopy Techniques”, in the Asia Pacific Solar Research Conference 2019, Canberra, Australia.

 

研究方向:

1. 黑硅太阳能电池的制备与优化,黑硅太阳能电池的光学损失与材料缺陷研究

2. 硅太阳能电池的光学模拟

3. 硅太阳能电池与叠层太阳能电池的失效分析


科研项目: 

 3. “Integrating industrial black silicon with high efficiency multicrystalline solar cells”, Australian Renewable Energy Agency (ARENA) DP010, 2018-2021,已结题,参与.

2. “Development and commercialisation of high efficiency silicon solar cell technology”, Australian Renewable Energy Agency (ARENA) 1-A060-extension, 2017-2021,已结题,参与.

1. “Advanced manufacturing of solar cells using cutting-edge hydrogenation”, Global Innovation Linkages (Department of Industry, Innovation and Science), 2017-2020, 已结题,参与.

 

 

代表论文:

[1] Y. Zhang, C. Kong, R.S. Davidsen, G. Scardera, L. Duan, K.T. Khoo, D.N.R. Payne, B. Hoex, M. Abbott, 3D characterisation using plasma FIB-SEM: A large-area tomography technique for complex surfaces like black silicon, Ultramicroscopy. 218 (2020) 113084. https://doi.org/10.1016/j.ultramic.2020.113084.

[2] Y. Zhang, C. Kong, G. Scardera, M. Abbott, D.N.R.R. Payne, B. Hoex, Large Volume Tomography Using Plasma FIB-SEM: A Comprehensive Case Study on Black Silicon, Ultramicroscopy. 233 (2021) 113458. https://doi.org/10.1016/j.ultramic.2021.113458.

[3] Y. Zhang, T. Veeken, S. Wang, G. Scardera, M. Abbott, D. Payne, A. Polman, B. Hoex, Plasma Focused Ion Beam Tomography for Accurate Characterization of Black Silicon Validated by Full Wave Optical Simulation, Adv Mater Technol. 7 (2022). https://doi.org/10.1002/admt.202200068.

[4] Y. Zhang, G. Scardera, S. Wang, M. Abbott, D. Payne, B. Hoex, Scanning Electron Microscopy Dopant Contrast Imaging of Phosphorus‐Diffused Silicon, Adv Mater Technol. 8 (2023) 2200737. https://doi.org/10.1002/admt.202200737.

[5] L. Duan, X. Meng, Y. Zhang, H. Yi, K. Jin, F. Haque, C. Xu, Z. Xiao, L. Ding, A. Uddin, Comparative analysis of burn-in photo-degradation in non-fullerene COi8DFIC acceptor based high-efficiency ternary organic solar cells, Mater Chem Front. 3 (2019) 1085–1096. https://doi.org/10.1039/C9QM00130A.

[6] T.H. Fung, M.U. Khan, Y. Zhang, N.J. Western, D.N.R.R. Payne, K.R. McIntosh, M.D. Abbott, K.R. Mclntosh, M.D. Abbott, Improved Ray Tracing on Random Pyramid Texture via Application of Phong Scattering, IEEE J Photovolt. 9 (2019) 591–600. https://doi.org/10.1109/JPHOTOV.2019.2894688.

[7] F. Haque, H. Yi, L. Duan, Y. Zhang, M. Wright, G. Conibeer, A. Uddin, Optimisation of annealing temperature for low temperature processed inverted structure Caesium Formamidinium Lead Triiodide perovskite solar cells, Mater Sci Semicond Process. 102 (2019) 104580. https://doi.org/https://doi.org/10.1016/j.mssp.2019.06.015.

[8] L. Duan, N.K. Elumalai, Y. Zhang, A. Uddin, Progress in non-fullerene acceptor based organic solar cells, Solar Energy Materials and Solar Cells. 193 (2019) 22–65. https://doi.org/https://doi.org/10.1016/j.solmat.2018.12.033.

[9] H. Yi, D. Wang, L. Duan, F. Haque, C. Xu, Y. Zhang, G. Conibeer, A. Uddin, Solution-processed WO3 and water-free PEDOT:PSS composite for hole transport layer in conventional perovskite solar cell, Electrochim Acta. 319 (2019) 349–358. https://doi.org/https://doi.org/10.1016/j.electacta.2019.06.134.

[10] Z.G. Huang, K. Gao, X.G. Wang, C. Xu, X.M. Song, L.X. Shi, Y. Zhang, B. Hoex, W.Z. Shen, K. Gao, X.G. Wang, C. Xu, X.M. Song, L.X. Shi, Y. Zhang, B. Hoex, Large-area MACE Si nano-inverted-pyramids for PERC solar cell application, Solar Energy. 188 (2019) 300–304. https://doi.org/10.1016/j.solener.2019.06.015.

[11] L. Duan, H. Yi, Y. Zhang, F. Haque, C. Xu, A. Uddin, Comparative study of light- and thermal-induced degradation for both fullerene and non-fullerene-based organic solar cells, Sustain Energy Fuels. 3 (2019) 723–735. https://doi.org/10.1039/c8se00567b.

[12] L. Duan, H. Yi, Z. Wang, Y. Zhang, F. Haque, B. Sang, R. Deng, A. Uddin, Semitransparent organic solar cells based on PffBT4T-2OD with a thick active layer and near neutral colour perception for window applications, Sustain Energy Fuels. 3 (2019) 2456–2463. https://doi.org/10.1039/C9SE00413K.

[13] L. Duan, Y. Zhang, H. Yi, F. Haque, R. Deng, H. Guan, Y. Zou, A. Uddin, Trade-Off between Exciton Dissociation and Carrier Recombination and Dielectric Properties in Y6-Sensitized Nonfullerene Ternary Organic Solar Cells, Energy Technology. 1900924 (2019) 1–12. https://doi.org/10.1002/ente.201900924.

[14] L. Duan, B. Sang, M. He, Y. Zhang, M.A. Hossain, M.H. Rahaman, Q. Wei, Y. Zou, A. Uddin, B. Hoex, Interface Modification Enabled by Atomic Layer Deposited Ultra-Thin Titanium Oxide for High-Efficiency and Semitransparent Organic Solar Cells, Solar RRL. 4 (2020) 2000497. https://doi.org/https://doi.org/10.1002/solr.202000497.

[15] G.K. Poduval, L. Duan, Md.A. Hossain, B. Sang, Y. Zhang, Y. Zou, A. Uddin, B. Hoex, High-Efficiency Nonfullerene Organic Solar Cells Enabled by Atomic Layer Deposited Zirconium-Doped Zinc Oxide, Solar RRL. 4 (2020) 2000241. https://doi.org/https://doi.org/10.1002/solr.202000241.

[16] L. Duan, Y. Zhang, M. He, R. Deng, H. Yi, Q. Wei, Y. Zou, A. Uddin, Burn-In Degradation Mechanism Identified for Small Molecular Acceptor-Based High-Efficiency Nonfullerene Organic Solar Cells, ACS Appl Mater Interfaces. 12 (2020) 27433–27442. https://doi.org/10.1021/acsami.0c05978.

[17] L. Duan, Y. Zhang, H. Yi, F. Haque, C. Xu, S. Wang, A. Uddin, Thermal annealing dependent dielectric properties and energetic disorder in PffBT4T-2OD based organic solar cells, Mater Sci Semicond Process. 105 (2020) 104750. https://doi.org/https://doi.org/10.1016/j.mssp.2019.104750.

[18] T.H. Fung, T.P. Pasanen, Y. Zhang, A. Soeriyadi, V. Vähänissi, G. Scardera, D. Payne, H. Savin, M. Abbott, Improved emitter performance of RIE black silicon through the application of in-situ oxidation during POCl3 diffusion, Solar Energy Materials and Solar Cells. 210 (2020) 110480. https://doi.org/https://doi.org/10.1016/j.solmat.2020.110480.

[19] M. He, J. Huang, J. Li, J.S. Jang, U.P. Suryawanshi, C. Yan, K. Sun, J. Cong, Y. Zhang, H. Kampwerth, M.P. Suryawanshi, J. Kim, M.A. Green, X. Hao, Systematic Efficiency Improvement for Cu2ZnSn(S,Se)4 Solar Cells By Double Cation Incorporation with Cd and Ge, Adv Funct Mater. 31 (2021) 2104528. https://doi.org/https://doi.org/10.1002/adfm.202104528.

[20] M. He, X. Zhang, J. Huang, J. Li, C. Yan, J. Kim, Y.-S. Chen, L. Yang, J.M. Cairney, Y. Zhang, S. Chen, J. Kim, M.A. Green, X. Hao, High Efficiency Cu2ZnSn(S,Se)4 Solar Cells with Shallow LiZn Acceptor Defects Enabled by Solution-Based Li Post-Deposition Treatment, Adv Energy Mater. 11 (2021) 2003783. https://doi.org/https://doi.org/10.1002/aenm.202003783.

[21] G. Scardera, D.N.R. Payne, M.U. Khan, Y. Zhang, A. Soeriyadi, S. Zou, D. Zhang, R.S. Davidsen, O. Hansen, B. Hoex, M.D. Abbott, Silicon Nanotexture Surface Area Mapping Using Ultraviolet Reflectance, IEEE J Photovolt. 11 (2021) 1291–1298. https://doi.org/10.1109/JPHOTOV.2021.3086439.

[22] G. Scardera, S. Wang, Y. Zhang, M.U. Khan, S. Zou, D. Zhang, R.S. Davidsen, O. Hansen, L. Mai, D.N.R.R. Payne, B. Hoex, M.D. Abbott, On the Enhanced Phosphorus Doping of Nanotextured Black Silicon, IEEE J Photovolt. 11 (2021) 298–305. https://doi.org/10.1109/JPHOTOV.2020.3047420.

  

联系方式:

电子邮箱:zhangyu1@sztu.edu.cn