[Tu3-P32] Sub area 3-2: Cells and Modules | PVSEC-35

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Sub area 3-2: Cells and ModulesArea3: Wafer-based Silicon Photovoltaics : Sub area 3-2: Cells and Modules

[Tu3-P32]Sub area 3-2: Cells and Modules

Tue. Nov 12, 2024 2:00 PM - 3:30 PM JST
Tue. Nov 12, 2024 5:00 AM - 6:30 AM UTC

PS-11/Multipurpose Hall (1F)

[Tu3-P32-01]Damp heat stability of Cat-CVD Si nitride films deposited at a high deposition rate

*Keisuke Ohdaira¹, Huynh Thi Cam Tu¹ (1. Japan Advanced Institute of Science and Technology (Japan))

[Tu3-P32-02]Evaluation of temperature dependent stress around electrodes in crystalline silicon solar cells by Raman spectroscopy

*Koki Hasebe¹, Ryo Yokogawa^1,4, Kyotaro Nakamura², Yoshio Ohshita², Noboru Yamada³, Atsushi Ogura^1,4 (1. Meiji university (Japan), 2. Toyota Technological Institute (Japan), 3. Nagaoka University of Technology (Japan), 4. Meiji Renewable Energy Laboratory, Meiji University (Japan))

[Tu3-P32-03]Precise quantitative evaluation of series resistance mapping of crystalline solar cells in electroluminescence method

*Sakuya Yamamoto¹, Itaru Raifuku¹, Yasuaki Ishikawa¹ (1. Aoyama Gakuin University (Japan))

[Tu3-P32-04]A Comparison of Circuit Models for Simulating and Evaluating the Current-Voltage Characteristics of PERT N-Type Bifacial Solar Cells

*Phurachaya Wiratsiri¹, Jutturit Thongpron¹ (1. Faculty of Engineering Rajamangala University of Technology Lanna (Thailand))

[Tu3-P32-05]Singlet fission enhanced silicon solar cells: silicon surface passivation vs triplet transfer

*Jingnan (Taffy) Tong¹, Shona McNab¹, Zhangfan Qiao¹, Alex J. Baldacchino¹, Ben P. Carwithen¹, Matthew W. Brett¹, Alvin Mo¹, Yu (Victor) Zhang¹, Phoebe M. Pearce¹, Yajie (Jessica) Jiang¹, Alison M. Ciesla¹, Jon Beves¹, Bram Hoex¹, Michael Nielsen¹, Dane McCamey¹, Timothy Schmidt¹, Murad Tayebjee¹, N. J. Ekins-Daukes ¹ (1. UNSW (Australia))

[Tu3-P32-06]The layered structure concept for n-MoS₂/p-Si(c) heterojunction solar cells using TCAD Sentaurus

*ANTERDIPAN SINGH¹, PRATIMA AGARWAL¹ (1. Indian Institute of Technology Guwahati (India))

[Tu3-P32-07]Simulation studies on n-WS₂/p-Si(c) Heterojunction Solar Cells using TCAD sentaurus

*PRATIMA AGARWAL¹, ANTERDIPAN SINGH¹, BISWAJIT DAS¹ (1. Indian Institute of Technology Guwahati (India))

[Tu3-P32-08]Improvement in performance of dopant-free V₂O_x/c-Si(n) solar cell by the application of UV-Ozone treatment

*Rahul Rahul¹, Juhi Kumari², Anterdipan Singh¹, Pratima Agarwal^1,2 (1. Department of Physics, Indian Institute of Technology Guwahati (India), 2. School of Energy Science and Engineering, Indian Institute of Technology Guwahati (India))

[Tu3-P32-09]Optimized Division-Conditions of Shinlged Heterojuntion Solar Cells by InfraRed Laser Irradiation

*EunBi Lee Lee^1,2, Min-Joon Park Park¹, Sungmin Yoon Yoon¹, Eunae Jo Jo¹, Kiseok Jeon Jeon¹, Minseob Kim Kim¹, Jinho Shin Shin¹, Yujin Kim Kim¹, Chaehwan Jeong Jeong ¹, Cheol Yeong Park Park¹ (1. Korea Institute of Industrial Technology (Korea), 2. Yonsei University (Korea))

[Tu3-P32-10]Optimization and Improvement electrical and optical properties to enhance silicon heterojunction solar cell by ITO/Al2O3 double layer anti-reflective coating.

*Seokjin Jang¹, Muhammad Quddamah Khokhar², Sangheon Park³, Junsin Yi⁴ (1. Sungkyunkwan university (Korea), 2. Sungkyunkwan university (Korea), 3. Sungkyunkwan university (Korea), 4. Sungkyunkwan university (Korea))

[Tu3-P32-11]Fill Factor Loss Analysis of Silicon Heterojunction Solar Cells: Impact of Contact Resistivity and Recombination Losses

*Shrestha Bhattacharya¹, Ashutosh Pandey¹, Shahnawaz Alam¹, Silajit Manna¹, Sourav Sadhukhan¹, Son Pal Singh¹, Vamsi Krishna Komarala¹ (1. Indian Institute of Technology Delhi (India))

[Tu3-P32-12]Silicon solar cells using n-type tin oxide as a hole selective layer

*Tu Huynh Thi Cam¹, Keisuke Ohdaira¹ (1. Japan Advanced Institute of Science and Technology (Japan))

[Tu3-P32-13]Silicon heterojunction solar cell with undoped tin oxide transparent electrode

*Cao Yu^1,2, Qiaojiao Zou³, Qi Wang², Gangqiang Dong², Xiaodan Zhang³, Xiaohong Zhang¹ (1. Soochow University (China), 2. Suzhou Maxwell Technologies Co., Ltd (China), 3. Nankai University (China))

[Tu3-P32-14]Lifetime Enhancement of Nano-Crystalline SHJ Cells Using Heat and Light Treatments

*Maysa Sarsour¹, Fiacre Rougieux¹, Alison Ciesla¹, Chukwuka Madumelu¹, Martin Green¹, NJ Ekins-Daukes¹, Jessica Yajie Jiang¹ (1. School of Photovoltaic and Renewable Energy, UNSW (Australia))

[Tu3-P32-15]High-performance transparent electron-selective contact for crystalline silicon solar cells

Dacheng Xu¹, *Kun Gao¹, Xinbo Yang¹ (1. College of Energy, Soochow University (China))

[Tu3-P32-16]Passivation quality and contact resistance of tunnel nitride passivated contacts with various silicon nitride compositions

*Yuhi Ito¹, Tu Huynh Thi Cam¹, Keisuke Ohdaira¹ (1. Japan advanced institute of science and technology (Japan))

[Tu3-P32-17]Formation of Etching Barrier by Using SiO_xN_y as Tunnel Layer in TOPCon Structure

*Mingun Kim¹, Hoyoung Song¹, Donghwan Kim¹, Hae-Seok Lee³, Yoonmook Kang³, Youngho Choe² (1. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 2. Institute of Energy Technology, Korea University, Republic of Korea (Korea), 3. Graduate School of Energy and Environment (KU-KIST Green School), Korea University, Republic of Korea (Korea))

[Tu3-P32-18]Aluminum Composition Effects in Ag/Al Paste on Local p+ Emitter Formation in p-Type Silicon Rear Junction TOPCon Solar Cells

*Yejin Gu¹, Yerin Lee¹, Dongjin Choi³, Hoyoung Song¹, MyeongSeob Sim¹, Yoonmook Kang², Youngho Choe³, Donghwan Kim¹, Hae-Seok Lee² (1. Department of Materials Science and Engineering, Korea University (Korea), 2. Graduate School of Energy and Environment (KU-KIST Green School), Korea University (Korea), 3. Institute of Energy Technology, Korea University (Korea))

[Tu3-P32-19]The implement of silver-coated copper paste on TOPCon solar cells

*CHIH JENG HUANG¹, Chun-Ping Lin¹, Han-Chen Chang¹, Sung-Yu Chen¹ (1. Green Energy and Environment Research Laboratories, Industrial Technology Research Institute, Chinese Taipei (Chinese Taipei))

[Tu3-P32-20]Simulation of TOPCon based back contact(TBC) solar cell using SILVACO VICTORY TCAD

*Ji-Seong Hwang¹, Youngho Choe², Yoonmook Kang³, Hae-Seok Lee³, Donghwan Kim¹ (1. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 2. Institute of Energy Technology, Korea University (Korea), 3. Graduate School of Energy and Environment (KU-KIST Green School), Korea University (Korea))

[Tu3-P32-21]Doping characteristics of boron-doped polysilicon in TOPCon solarcell

*SuBeom Hong¹, Dongjin Choi², Huiyeon Lee², Youngho Choe³, Hae-seok Lee¹, Donghwan Kim², Yoonmook Kang¹ (1. Graduate School of Energy and Environment (KU-KIST Green School), Korea University, Republic of Korea (Korea), 2. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 3. Institute of Energy Technology, Korea University, Republic of Korea (Korea))

[Tu3-P32-22]Enhancing thermal stability of SiO_x/poly-Si passivated contacts: Investigating the impact of firing peak temperature

*Yerin Lee¹, Dongjin Choi¹, Hoyoung Song¹, Youngho Choe², Yoonmook Kang³, Hae-Seok Lee³, Donghwan Kim¹ (1. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 2. Institute of Energy Technology, Korea University, Republic of Korea (Korea), 3. Graduate School of Energy and Environment (KU-KIST Green School), Korea University, Republic of Korea (Korea))

[Tu3-P32-23]Bending tests and stress simulation of TOPCon solar cells cut by TLS technology: Advantages for curved PV modules

*Shunto Honda¹, Tomoya Tanimoto¹, Benjamin Lee², Steffen Geißler², Daisuke Sato¹, Noboru Yamada¹ (1. Nagaoka University of Technology (Japan), 2. Hanwha Q CELLS GmbH (Germany))

[Tu3-P32-25]Degradation of Silicon Solar Modules Induced by Light Soaking at Elevated Temperatures: A Comparative Study of Pre-Hydrogenation and Post-Hydrogenation

*MyeongSeob Sim¹, Dongjin Choi², Youngho Choe², Yoonmook Kang³, Donghwan Kim¹, Hae-Seok Lee³ (1. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 2. Institute of Energy Technology, Korea University, Republic of Korea (Korea), 3. Graduate School of Energy and Environment (KU-KIST Green School), Korea University, Republic of Korea (Korea))

[Tu3-P32-26]Tolerance to potential-induced degradation for crystalline Si photovoltaic modules with Ag nanowires deposited on cell/encapsulant interface

*Asahi Yonemoto¹, Yiming Qin¹, Dhamrin Marwan², Keisuse Ohdaira³, Kazuhiro Gotoh^1,4, Atsushi Masuda^1,4 (1. Grad. School Sci. Tech., Niigata University (Japan), 2. Osaka University (Japan), 3. JAIST (Japan), 4. IRCNT, Niigata University (Japan))

[Tu3-P32-27]Mitigation of potential-induced degradation phenomena by Li element in crystalline Si photovoltaic modules

*Yiming QIN¹, Asahi Yonemoto¹, Dhamrin Marwan², Keisuke Ohdaira³, Kazuhiro Gotoh^1,4, Atsushi Masuda^1,4 (1. Niigata University (Japan), 2. Osaka University (Japan), 3. JAIST (Japan), 4. IRCNT, Niigata University (Japan))

[Tu3-P32-28]Impact of high impulse voltage on insulation of crystalline silicon photovoltaic modules

*ZEBE Thomas D'Aquin¹, Masao Isomura¹, Hanae Yamazaki², Atsushi Masuda², Tetsuya Kaneko¹ (1. Tokai University (Japan), 2. Niigata University (Japan))

[Tu3-P32-29]Fluoropolymer layer for Snail trail prevention in c-Si PV modules

*Jaehwan Ko¹, Chungil Kim¹, Suwoon Lee¹, Jiwon Song¹, Hyung-Jun Song¹ (1. Seoul National University of Science and Technology (Korea))

[Tu3-P32-30]Development of lightweight PV module with an aluminum composite back sheet for BIPV applications

*nopphadol sitthiphol¹ (1. National Science and Technology Development Agency (NSTDA) (Thailand))

[Tu3-P32-31]Investigation of glassless crystalline silicon solar modules with PET film cover for high reliability in high temperatures and humidity conditions

*Tomihisa Tachibana¹, Katsuhiko Shirasawa¹, Katsuto Tanahashi¹ (1. AIST (Japan))

[Tu3-P32-32]Highly designed photovoltaic modules using black back sheet with IR reflection

*Ryoya Okui¹, Atsushi Nakahara², Kazuhiro Gotoh^1,3, Atsushi Masuda^1,3 (1. Grad. School Sci. Tech., Niigata University (Japan), 2. Dai Nippon Printing (Japan), 3. IRCNT, Niigata University (Japan))

[Tu3-P32-33]Improvement of heat dissipation of crystalline silicon-based-solar-cell module by MgO particle mixed silicone layer

*Yuta Ninomiya¹, Eiko Shimokata¹, Keisuke Ohdaira², Atsushi Masuda³, Yasushi Sobajima¹ (1. Gifu University (Japan), 2. JAIST (Japan), 3. Niigata University (Japan))

[Tu3-P32-34]Development of easy-to-disassemble solar PV module for environmentally friendly end-of-life handling

*Amornrat Limmanee¹, Suttinan Jaroensathainchok¹, Channarong Piromjit¹, Sampan Sivavorapan¹, Malai Wongkphabutr¹, Prathum Kungsok¹, Taweewat Krajangsang¹ (1. ENTEC, National Science and Technology Development Agency (Thailand))

[Tu3-P32-35]Investigation of reflectance reduction structure using RCWA method for encapsulant-less Si photovoltaic module

*Shota Nakai¹, Itaru Raifuku¹, Yasuaki Ishikawa¹ (1. Aoyama Gakuin University (Japan))

[Tu3-P32-36]Mechanical strength evaluation of curved crystalline silicon photovoltaic moduleswithout encapsulant and cover glass

*Mitsunori Nagahara¹, Tu Huynh Thi Cam¹, Keisuke Ohdaira¹ (1. Japan Advanced Institute of Science and Technology (Japan))

[Tu3-P32-37]Adding heat dissipation function to c-Si-based solar cell modules without encapsulants using MgO/silicone layer

*Kouzen Wakazono¹, Shinya Tsukamoto¹, Keisuke Ohdaira², Yasushi Sobajima¹ (1. Gifu university (Japan), 2. JAIST (Japan))

[Tu3-P32-38]Noncontact and high throughput estimation for the averaged voltage of a target cell in a photovoltaic module by clamping a single wire

*Yasuyuki Kobayashi¹, Muhammad Syahir Bin Abdul Ramad¹, Hao Jiang¹ (1. Teikyo University (Japan))

[Tu3-P32-39]Discrepancies in factory-labeled and measured STC specifications of imported photovoltaic
modules in Yemen: implications for trade practices and quality assurance

*Lamees Ahmed AlQahm¹, Marwan Dhamrin (1. Yemen Standardization, Metrology and Quality Control Organization (Yemen))

[Tu3-P32-40]Impact of data granularity on the assessment of photovoltaic module performance

*Andreea Sabadus¹, Marius Paulescu² (1. Institute for Advanced Environmental Research, West University of Timisoara (Romania), 2. Faculty of Physics, West University of Timisoara (Romania))

[Tu3-P32-41]Influence of parameters of modules and environment on the LCOE

*Lujia Xu^1,2, Lili Wang¹, Mauro Pravettoni¹, Sagarika Kumar¹, Shilpi Shital¹, Stefaan De Wolf², Phil Hart¹ (1. Technology Innovation Institute (United Arab Emirates), 2. King Abdullah University of Science and Technology (Saudi Arabia))

[Tu3-P32-42]Degradation analysis of 38-year-old PV modules under the weather conditions of Sana’a -Yemen

*Mohammed Dahesh^1,2, Mohammed Al-Matwakel², Marwan Dhamrin^3,4, Kazuma Ito⁵, Atsushi Masuda⁵ (1. Yemen Standardization, Metrology and Quality Control Organization (Yemen), 2. Physics Department, Faculty of Science, Sana’a University (Yemen), 3. Graduate School of Engineering, Osaka University 1-1 Yamadaoka, Suita 565-0871 (Japan), 4. Toyo Aluminium K.K, 3-6-8 Kutarocho, Chuo-ku, Osaka 541-0056 (Japan), 5. Graduate School of Science and Technology, Niigata University (Japan))

[Tu3-P32-43]Examining Two Varieties of Bifacial Solar modules for Vertical Photovoltaics Systems Across Different Orientations

*Ji Woo Sohn¹, Solhee Lee¹, Hongjun Jang², SuBeom Hong², Mingun Kim¹, Sungho Hwang², Youngho Choe³, Hae-Seok Lee², Donghwan Kim¹, Yoonmook Kang² (1. Department of Materials Science and Engineering, Korea University, Republic of Korea (Korea), 2. Graduate School of Energy and Environment (KU-KIST Green School), Korea University, Republic of Korea (Korea), 3. Institute of Energy Technology, Korea University, Republic of Korea (Korea))

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