| Area1. Advanced concepts and emerging materials for future PV power conversion | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 1ThP.1 | 500 | B-N Covalent Bond-based Non-fullerene Electron Acceptors for Efficient Organic Solar Cells | Zhengwei Hu | South China University of Technology |
| poster | 1ThP.2 | 218 | A new template prepared by lotion polymerization and organosilicon source using sol_ Optical and mechanical properties of HSNS films prepared by gel method | Yucen Xie | Yunnan Normal University |
| poster | 1ThP.3 | 129 | Secondary anti-solvent treatment for efficient 2D Dion-Jacobson perovskite solar cells | Lu Jin | Nankai University |
| poster | 1ThP.4 | 393 | Influence of two-step annealing process on a-IGZO/HfOx TFT devices | Jingwen Chen | Sungkyunkwan University |
| poster | 1ThP.5 | 498 | A simple fabrication of TiO2/PANI photo-supercapacitor for energy conversion and storage | Yanlong Lv | north China electric power university |
| poster | 1ThP.6 | 513 | 1,4-Azaborine Based Unfused Non-fullerene Acceptors for Organic Solar Cells | Shihao Chen | South China University of Technology |
| poster | 1ThP.7 | 518 | PDMS Interface Modification Improves the efficiency and Stability of Perovskite Solar Cells | Yingchen Li | Nankai University |
| poster | 1ThP.8 | 466 | An Engineering Strategy to Fabricate Semi-transparent Organic Solar Cells Based on Large Bandgap Materials as Second Donors or Acceptors | Minming Yan | Peking University Shenzhen Graduate School |
| poster | 1ThP.9 | 385 | High-energy-density supercapacitors based on high-areal-specific-capacity Ti3C2Tx and a redox-active organic-molecule hybrid electrode | Haoxiang Zhang | Dalian Institute of Chemical Physics, Chinese Academy of Sciences |
| poster | 1ThP.10 | 274 | Schottky Junction Solar Cell Using Graphene Directly Grown on Silicon at Low Temperature | SUDIP ADHIKARI | C’s Techno Inc |
| poster | 1ThP.11 | 277 | Control of Size and Faceting of Emerging Tetrahedral π-SnS Particles | Du Xiangxin | Kyoto University |
| poster | 1ThP.12 | 276 | Solution-processed p-Si-Based Novel Heterojunction Solar Cells | Zining Fan | Lanzhou University |
| poster | 1ThP.13 | 204 | An electron-conductive, hole-blocking Titanium Nitride contact for solution-processed silicon-organic hybrid heterojunction solar cells | Chenxi Liu | Lanzhou University |
| poster | 1ThP.14 | 197 | Effects of Silver Electrode Interface on the Stability of Hybrid Heterojunction Solar Cells | Hao Liu | Lanzhou University |
| Area2. Perovskite and tandem solar cells and modules | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 2ThP.1 | 441 | Acetone-assisted precursor engineering enables low-temperature fabrication of CsPbI2Br perovskite for efficient solar cells | Weijian Tang | Sichuan University |
| poster | 2ThP.2 | 254 | Flexible all-perovskite tandem solar cells approaching 25% efficiency | Yurui Wang | nanjing university |
| poster | 2ThP.3 | 345 | Constructing a Tungsten Disulfide Modified Absorber For Boosting Photovoltaic Performance of Perovskite Solar Cells | Lin Fan | Jilin Normal University |
| poster | 2ThP.4 | 345 | Improved Performance of Bifacial Perovskite Photovoltaic Cells via Adjusting Photoelectric Characteristic in Rear Window Layers | Lin Fan | Jilin Normal University |
| poster | 2ThP.5 | 317 | Inhibiting Octahedral Tilting for Stable CsPbI2Br Solar Cells | Aili Wang | Yangzhou University |
| poster | 2ThP.6 | 392 | High-speed Deposition of Large-area Narrow-bandgap Perovskite Films for All-perovskite Tandem Solar Mini-modules | Jinglin Sun | Shanghai Jiao Tong University |
| poster | 2ThP.7 | 389 | Flexible aqueous supercapacitors for long cycle-life using electrode with multiple active C=S sites | Xinxin Xing | Dalian Institute of Chemical Physics |
| poster | 2ThP.8 | 384 | Designing Heterovalent Substitution with Antioxidant Attribute for High-Performance Sn-Pb Alloyed Perovskite Solar Cells | Zhen Chang | Dalian Institute of Chemical Physics |
| poster | 2ThP.9 | 341 | Self-Assembled Amphiphilic Monolayer for Efficient and Stable Wide-Bandgap Perovskite Solar Cells | Lu Liu | China National Nuclear Power Co., Ltd. |
| poster | 2ThP.10 | 387 | Surfactant engineering for perovskite solar cells and submodules | Kai Wang | Dalian Institute of Chemical Physics, Chinese Academy of Sciences |
| poster | 2ThP.11 | 106 | High-Performance Flexible All-Perovskite Tandem Solar Cells and Mini-Modules | Huagui Lai | Empa |
| poster | 2ThP.12 | 279 | MASCN Manipulated Intermediate Phase for High-Performance Blade-coated Inverted Wide-Bandgap Perovskite Solar Cells | Jianing Li | Nankai University |
| poster | 2ThP.13 | 237 | 0D Additive for Flexible All-inorganic Perovskite Solar Cells to Go Beyond 60,000 Flexible Cycles | Huijing Liu | North China Electric Power University |
| poster | 2ThP.14 | 187 | Highly Efficient and Stable CsPbI3 Solar Cells Based on 2D and Quasi-2D Double Perovskite Passivation Layer | Huifang Han | North China Electric Power University |
| poster | 2ThP.15 | 188 | In situ formed inorganic lead oxysalts layer for surface passivation towards efficient and stable in CsPbI3 perovskite solar cells | Yao Fu | North China Electric Power University |
| poster | 2ThP.16 | 216 | Stabilization of FAPbI3 with multifunctional alkali-functionalized polymer | Chenxu Zhao | North China Electric Power University |
| poster | 2ThP.17 | 194 | The Synthesis Of Single Crystalline Methylammonium Lead Iodide And Its Degradation Under Moisture Conditions | Yasuhiko HAYASHI | Okayama University |
| poster | 2ThP.18 | 137 | Synergistic effect of pyridine salt additives for efficient and stable inverted wide-bandgap perovskite solar cells | Hua Zhao | Nankai University |
| poster | 2ThP.19 | 251 | Machine-Learning-Based Study of The Formation and Band Gap of Novel Perovskite Oxides | Yifan Hu | Sungkyunkwan University |
| poster | 2ThP.20 | 443 | Enhanced Performance of Flexible Perovskite Solar Cells with respect to MACl-SnO2 Electron Transport Layer | Ting Jiang | Sichuan University |
| poster | 2ThP.21 | 390 | In situ epitaxial growth of blocking structure in mixed-halide wide-bandgap perovskite for efficient photovoltaics | Zhuoxin Li | North China Electric Power University |
| poster | 2ThP.22 | 410 | Interface Modification for Efficient and Stable Inverted Inorganic Perovskite Solar Cells | Tianfei Xu | Shaanxi Normal University |
| poster | 2ThP.23 | 417 | Stable Perovskite Solar Cells Induced by Tuning Voids of Inorganic Layer in Two-step Method | Xiaoli Gong | Sichuan University |
| poster | 2ThP.24 | 327 | Plant-Derived L-Theanine for Ultraviolet/Ozone Resistant Perovskite Photovoltaics | Yong Li | Shaanxi Normal University |
| poster | 2ThP.25 | 380 | Amino-Acid-Type Alkylamine Additive for High-Performance Wide-Bandgap Perovskite Solar Cells | Ting Nie | Shaanxi Normal University |
| poster | 2ThP.26 | 406 | Decoupling the effects of defects on efficiency and stability through phosphonates in stable halide perovskite solar cells | Haibing Xie | Shenzhen University |
| poster | 2ThP.27 | 394 | Acidity Control of Interface for Improving Stability of All-perovskite Tandem Solar Cells | Jie Zhou | Shanghai Jiaotong University |
| poster | 2ThP.28 | 328 | Perovskite Solar Cells Using SiO2 as Anti-Solvent Additive for ModulatingThin Film Nucleation | Jionghua Wu | Fuzhou University |
| poster | 2ThP.29 | 339 | Dielectric Regulation via Polar Specie Modification Boosted the Performance of CsPbI3 Perovskite Solar Cells | Jingru Zhang | Shaanxi University of Science & Technology |
| poster | 2ThP.30 | 80 | Uniform Coverage Functional Layers Enable High-efficient Flexible Perovskite Solar Modules with an Outstanding Fill Factor | Yibo Xu | Changzhou University |
| poster | 2ThP.31 | 222 | A method to inhibit perovskite solution aging: Induced by perovskite microcrystals | Kaihuai Du | Changzhou University |
| poster | 2ThP.32 | 253 | Seed-assisted Cu-doped Chemical Bath Deposition for Preparing High-quality NiOx Hole Transport Layers in Perovskite Solar Cells | Yunxiao Liao | Changzhou University |
| poster | 2ThP.33 | 302 | Conjugated small molecule inhibiting intrinsic ion migration and enriching electron transfer channels for stable and efficient perovskite solar cells | Fei Han | Jiangxi Academy of Sciences |
| poster | 2ThP.34 | 272 | Highly Efficient Flexible Solar Cells on PET for Indoor Application via Halide Composition and Interfacial Design Optimization | Jie Xu | Centre for Hybrid and Organic Solar Energy, University of Rome Tor Vergata |
| poster | 2ThP.35 | 90 | Highly Conductive and Broadband Transparent Zr-Doped In2O3 as the Front Electrode for Monolithic Perovskite/Silicon Tandem Solar Cells | Wei Han | Institute of Photoelectronic Thin Film Devices and Technology, Renewable Energy Conversion and Storage Center, Solar Energy Research Center, Nankai University |
| poster | 2ThP.36 | 288 | Perovskite electroluminescent devices based on CsPbBrI and quasi two-dimensional structure thin film devices | Zirui Shi | Nankai University |
| poster | 2ThP.37 | 182 | Interface Control and Efficiency Enhancement of Mesoscopic and Planar Type Electron-Transporting Layer for All Inorganic Perovskite Solar Cells | Lyufei Xue | Waseda University |
| poster | 2ThP.38 | 283 | Chloride-Based Additive Engineering For Efficient And Stable Wide-Bandgap Perovskite Solar Cells | Xinyi Shen | University of Oxford |
| poster | 2ThP.39 | 213 | Utilizing Benzophenone as a Molecular Additive to Enhance the Performance and Stability of Inverted Perovskite Solar Cells | Xiaowei Xu | Southern University of Science and Technology |
| poster | 2ThP.40 | 249 | Facile Synthesis of Iron-Doped Cs3Bi2Br9 Perovskite Materials with Tunable Properties | Thiri Htun | Okayama University |
| poster | 2ThP.41 | 226 | Interface Engineering Increases the Open Circuit Voltage of Wide-Band Gap Perovskite Solar Cells | Yu Gan | Sichuan University |
| poster | 2ThP.42 | 264 | Surface modification treatment for the improvement of light illumination stability in Sn-Pb mixed perovskite solar cells | Yulu He | National Institute for Materials Science |
| poster | 2ThP.43 | 148 | Nanocrystalline Silicon-Oxygen Based Tunneling Recombination Junctions in Perovskite/Silicon Heterojunction Tandem Solar Cells | Yuxiang Li | Nankai University |
| poster | 2ThP.44 | 99 | Cooperative Adsorption of Metal-Organic Complexes on CsPbI2Br Perovskite Surface for Photovoltaic Efficiency Exceeding 17% | Xu Wang | Inner Mongolia Erdos Electric Power and Metallurgy Group Company Limited |
| poster | 2ThP.45 | 99 | Surface chelation of cesium halide perovskite by dithiocarbamate for efficient and stable solar cells | Xu Wang | Inner Mongolia Erdos Electric Power and Metallurgy Group Company Limited |
| poster | 2ThP.46 | 224 | Novel Cathode Buffer Layer Ti-doped Assist efficient 1.65eV Wide Bandgap and 1.72eV Inorganic Perovskite Solar Cells | Ming Luo | Nankai University |
| poster | 2ThP.47 | 147 | Luminescence-based implied voltage imaging of tandem solar cells via bandpass filter method | Shuai Nie | University of New South Wales |
| poster | 2ThP.48 | 160 | Commonly Used Sequential Passivation for Lead-Free Tin Perovskite Solar Cells with High Efficiency | Zheng Zhang | Hebei University |
| poster | 2ThP.49 | 104 | Bar-coating Preparation of All-Inorganic Perovskite Layer over 700 nm Thickness and Improvement of Conversion Efficiency through Surfactant Addition | Kota Haseyama | Waseda University |
| poster | 2ThP.50 | 203 | Two-terminal perovskite/organic tandem solar cells with different metal recombination layers | Rongbo Wang | Nankai University |
| poster | 2ThP.51 | 201 | Efficient and Thermally Stable All-Perovskite Tandem Solar Cells Using All-FA Narrow-Bandgap Perovskite and Metal-oxide-based Tunnel Junction | Pu Wu | Nanjing University |
| poster | 2ThP.52 | 189 | Large Area Preparation and Performance Optimization of Inverted Planar Perovskite Solar Cells Based on Spray coating | Juntao Zhao | Nankai University |
| poster | 2ThP.53 | 71 | The degradation mechanism of perovskite solar cells under humid stability | Bingjie Zhu | Wuxi Institute of Inspection, Testing and Certification |
| poster | 2ThP.54 | 167 | Formamidine Formate as the Multifunctional Modulator at Buried Interface for Efficient FAPbI3 Perovskite Solar Cells | Ya Wang | Nankai University |
| poster | 2ThP.55 | 39 | 21.7% efficient all-perovskite tandem solar modules | Ke Xiao | Nanjing University |
| poster | 2ThP.56 | 144 | Cerium-Doped Indium Oxide and Application in Semi-Transparent Perovskite Solar Cells | Limeng Zhang | University of Chinese Academy of Sciences |
| poster | 2ThP.57 | 135 | Suppressing the Photoinduced Halide Segregation in Wide-Bandgap Perovskite Solar Cells by Strain Relaxation | Hui Liu | Nankai university |
| poster | 2ThP.58 | 112 | Perovskite solar cells based on spiro-OMeTAD stabilised with an alkylthiol additive | Xu Liu | University of New South Wales |
| poster | 2ThP.59 | 44 | Observation of Charge-Carrier dynamics of Perovskite Solar Cells by the Time-Resolved Pattern-illumination Phase Microscopy | Tatsuki Ito | Chuo University |
| poster | 2ThP.60 | 92 | Surface Defects Management by In Situ Etching with Methanol for Efficient Inverted Inorganic Perovskite Solar Cells | Hongrui Sun | Nankai University |
| poster | 2ThP.61 | 909 | Tuning the chemistry of solution-less perovskite processes for PVK-silicon tandem cells | Gregory Wilson | CSIRO |
| poster | 2ThP.62 | 940 | The Role of Indium Tin Oxide in Interfacing Perovskite with Steel and Silicon Solar Cells | Jianghui Zheng | The University of Sydney |
| poster | 2ThP.63 | 942 | Molecular engineering of self-assembled monolayer hole selective layer for high bandgap perovskite and highly efficient and stable perovskite-silicon tandem solar cells | Guoliang Wang | The University of Sydney |
| Area3. Thin film compound semiconductor solar cells | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 3ThP.1 | 400 | Analysis of Cu2ZnSn(S,Se)4 (CZTSSe) photovoltaic performance improvement with Ag doping position | Sang Woo Park | Chonnam National University |
| poster | 3ThP.2 | 373 | Effect of hydrogen partial pressures on the properties of Ga doped MZO film | Yufeng Zhang | INSTITUTE OF ELECTRICAL ENGINEERING,CHINESE ACADEMY OF SCIENCES |
| poster | 3ThP.3 | 333 | Back Contact Interface Modification in Carbon-based Antimony Chalcogenide Solar Cells | Guilin Chen | Fujian Normal University |
| poster | 3ThP.4 | 205 | Direct graphene grow on silicon for 6.9% efficient Graphene/Si Schottky solar cell | Rucheng Zhu | Nagoya Institute of Technology |
| poster | 3ThP.5 | 231 | Interface Band Engineering for High-efficiency Wide Bandgap Cu(In,Ga)Se2 Solar Cells | Wei Liu | Nankai University |
| poster | 3ThP.6 | 119 | Improved Carrier Collection Efficiency in CZTS Solar Cells Enabled by Li-enhanced Liquid-phase-assisted Grain Growth | Xiaojie Yuan | UNSW |
| poster | 3ThP.7 | 427 | High-efficiency flexible CZTSSe solar cells prepared by novel selenization process | Weihao Xie | Fuzhou University |
| poster | 3ThP.8 | 232 | Boosting open-circuit voltage in Sb2(S,Se)3 solar cells via additive-assisted hydrothermal deposition method | Yazi Wang | Korea Advanced Institute of Science and Technology (KAIST) |
| poster | 3ThP.9 | 225 | Optimizing bandgap gradient for Sb2(S,Se)3 solar cells: Toward 8% efficiency through a hybrid growth method | Seunghwan Ji | Korea Advanced Institute of Science and Technology (KAIST) |
| poster | 3ThP.10 | 334 | A Robust Hydrothermal Sulfuration Strategy toward Effective Defect Passivation Enabling 6.92% Efficiency Sb2S3 Solar Cells | Xiaoqi Peng | University of Science and Technology of China |
| poster | 3ThP.11 | 117 | Effect of DC Bias on MZO Window Layer for CdTe Solar cell | Qiuchen Wu | Institute of electrical engineering, Chinese academy of sciences |
| poster | 3ThP.13 | 304 | Research on Picosecond Laser Scribing Process For Flexible CdTe Thin-film Solar Cells With Cd2SnO4 As the Front Electrode | Kai Huang | CAS |
| poster | 3ThP.14 | 323 | Proton Radiation Resistance and Loss Mechanism of Kesterite Cu2ZnSn(S,Se)4 Solar Cells | Yun Zhao | Northwest Normal University |
| poster | 3ThP.15 | 199 | Preparation of a crack-free CZTSSe absorbers using Sn-rich composition engineering | Yang Mao | Nankai University |
| poster | 3ThP.16 | 245 | Loss Mechanism Analysis on High-Efficiency Kesterite Solar Cell Using Multi-Platform Electron Microscopy based Characterization techniques | Jialiang Huang | University of New South Wales |
| poster | 3ThP.17 | 263 | Efficiency enhancement of CZTSe solar cells based on in-situ K-doped precursor | Shengye Tao | Tsinghua University |
| poster | 3ThP.18 | 143 | Effects of sulfurization degree on the performances of CIGSSe absorber prepared by selenization/sulfurization annealing | Hanpeng Wang | Tsinghua University |
| poster | 3ThP.19 | 227 | Annealing Characteristics of MoOx Thin Films and Silicon/Compound Heterojunction Solar Cells | Bowen Ding | University of Chinese Academy of Sciences |
| poster | 3ThP.20 | 25 | Using advanced micro-to-atomic scale characterizations to explore the role of Ge in CZTSSe solar cells | Jialin Cong | UNSW |
| poster | 3ThP.21 | 192 | CZTS solar cells with bilayer electron selective contact | Xin Cui | UNSW |
| poster | 3ThP.22 | 164 | A K ions electrochemical post-treatment method for CIGS thin film solar cells | Wei Tang | Shenzhen Institute of Advanced Technology |
| poster | 3ThP.23 | 153 | Effect of Ga content on the structure and device performance of Cu(In,Ga)Se2 films | Xinye Yuan | Chinese Academy of Sciences |
| poster | 3ThP.24 | 151 | Study of single-graded CIGS thin film solar cells for bottom cell application in tandem solar cells. | Shen Yu | Shenzhen Institute of Advanced Technology, Chinese Academy of Sciences |
| Area4. III-V compound semiconductor, concentrator and space technologies | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 4ThP.1 | 234 | Preparation and Performance Study of Six-Layer Gradient Anti-Reflection Coatings for GaAs Solar Cells | Hao Wu | Yunnan Normal University |
| poster | 4ThP.2 | 544 | An economical electroplating way to fabricate IMM GaAs solar cell | Xiaodong Li | Tianjin Hengdian Space Power Co.,Ltd |
| poster | 4ThP.3 | 515 | Transparent conductive adhesive (TCA) intermediate layers for tandem solar cells | Pengfei Zhang | UNSW, Sydney |
| poster | 4ThP.4 | 541 | ULTRA-THIN-TRIPLE-JUNCTION SPACE SOLAR CELL | Jianrui Tie | Tianjin Hengdian Space Power Co.,Ltd |
| poster | 4ThP.5 | 286 | Luminescence and Electrical Coupling in Upright metamorphic quad-junction Solar Cells | Hongliang Guo | Tianjin institute of Power Sources |
| poster | 4ThP.6 | 451 | Quality Evaluation of SiGe Films Grown on Silicon by Aluminum Induced Liquid Phase Epitaxy | Marwan Dhamrin | Osaka University |
| poster | 4ThP.7 | 303 | The Defects Characterization in GaInP Junction for High Efficiency Triple-junction Solar Cells | Shuo Liu | Fudan University |
| poster | 4ThP.8 | 604 | High-bandgap AlGaInP solar cells with double hetero-junction for improved efficiency | JianQing Liu | Uniwatt Technology CO., Ltd |
| poster | 4ThP.9 | 476 | Characteristic Analysis of Reverse Current Breakdown Resistance of Triple-junction InGaP2InGaAsGe solar cell | Wenjia Lv | State Key Laboratory of Space Power Sources, Shanghai Institute of Space Power-Sources |
| poster | 4ThP.10 | 31 | Revisiting Silicon Solar Cells for Space - Electron Irradiation of TOPCon Si Solar Cells | Guo Li | University of New South Wales |
| poster | 4ThP.11 | 485 | Proton irradiation resistance of Pseudo Glass Cover Sheet as a Packaging Material for Solar Cells | Xinchang Dong | Harbin Institute of Technology |
| poster | 4ThP.12 | 86 | Impact of Hollow Silica Nanoparticles Broadband Anti-Reflective Coatings on GaAs Solar Cells: Experimental and Simulation | Zhangyang Xu | Yunnan Normal University |
| poster | 4ThP.13 | 208 | Optoelectronic Performance Analysis of 14 MeV neutron irradiation on flexible GaInP/GaAs/InGaAs solar cells | Shuyi Zhang | Yunnan Normal University |
| poster | 4ThP.14 | 170 | Bonding III-V/Textured-Silicon Monolithic Flexible Tandem Devices | Xingliang Li | NanKai University |
| poster | 4ThP.15 | 103 | Improving the radiation resistance of flexible GaInP/GaAs solar cell by optimizing the thickness of intrinsic layers in GaAs subcell | Tingbao Wang | Yunnan Normal University |
| Area5. Materials, cells and modules of crystalline Silicon PV | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 5ThP.1 | 533 | Study on effect of dispersant on the screen-printing morphology of HJT solar cells metal electrodes | Xianyang Zhang | Institute of Electrical Engineering Chinese Academy of Sciences |
| poster | 5ThP.2 | 132 | Laser doping selective emitter with thin borosilicate glass layer for n-type TOPCon c-Si solar cells | Dong Ding | Shanghai Jiao Tong University |
| poster | 5ThP.3 | 577 | Boron-Aluminum Co-doping of N-type TOPCon Solar Cell Emitter by Spin-Coating | Jindi Wei | East China University of Science and Technology |
| poster | 5ThP.4 | 238 | Photoelectronic Properties Comparison of Ag and AgNW as Metal layer in TCO/Metal/TCO Thin Films | Yunhua Cai | Shenzhen Technology University |
| poster | 5ThP.5 | 128 | Feasibility of N-doped polysilicon deposited on TOPCon solar cells by Physical Vapor Deposition | Chun-Ping Lin | Industrial Technology Research Institute |
| poster | 5ThP.6 | 613 | Development of Low-Indium Transparent Conductive Oxide Thin Films with High Performance | Zhongyu Gao | Sun Yat-sen University |
| poster | 5ThP.7 | 491 | Phosphorus diffusion gettering of n-type wafers for silicon heterojunction application | Anastasia Hertanti Soeriyadi | University of Oxford |
| poster | 5ThP.8 | 215 | Temporary surface passivation of silicon wafer for the enhancement of the measured carrier lifetime | Mengmeng Chu | Sungkyunkwan University |
| poster | 5ThP.9 | 629 | Application of X-ray photoelectron spectrometer in the study of silicon surface interface | Xiaodong Zhu | Zhejiang University |
| poster | 5ThP.10 | 149 | Investigation of light soaking and subsequent dark degradation in silicon heterojunction solar cells with n-nc-Si:H or n-a-Si:H | ZhiYang Cui | Sun Yat-sen University |
| poster | 5ThP.11 | 469 | Simulations of p-type interdigital back contact solar cells based on electron-collecting n-type POLO contacts | Huanpei Huang | Shanghai Jiao Tong University |
| poster | 5ThP.12 | 186 | Improved interface microstructure between crystalline silicon and nanocrystalline silicon oxide window layer of silicon heterojunction solar cells | Yinuo Zhou | Shanghai Institute of Microsystem and Information Technology |
| poster | 5ThP.13 | 27 | Simulation of Silicon Heterojunction Back-Contact Solar Cell Based on 26.81% Record Efficiency | Genshun Wang | Sun Yat-sen University |
| poster | 5ThP.14 | 532 | Ga-doped ZnO rear transparent contact enables high efficiency silicon heterojunction solar cells | Zhu Yan | Chinese Academy of Sciences |
| poster | 5ThP.15 | 508 | Electrical and optical properties of aluminum-doped zinc oxide and its applications in crystalline silicon solar cells | Xiaoyun Su | Sun Yat-sen University |
| poster | 5ThP.16 | 554 | Roller-Assisted Bifacial Co-Diffusion for Crystalline Silicon Solar Cells | Ying Xu | Hebei University |
| poster | 5ThP.17 | 265 | Impacts of Silicon Thickness on Cell Efficiency and Sustainable Deployment for Terawatt Scale Silicon Solar Cell Production | Li Wang | UNSW |
| poster | 5ThP.18 | 530 | Surface passivation of polycrystalline Si films formed by FLA to Cat-CVD hydrogenated n-a-Si films for solar cell applications | Zheng Wang | Japan Advanced Institute of Science and Technology |
| poster | 5ThP.19 | 474 | Effect of post-annealing on MoOx films in contact with different passivation layers for carrier selective contact solar cells | Mengqi Hu | Institute of Electrical Engineering of the Chinese Academy of Sciences |
| poster | 5ThP.20 | 547 | Resonance Frequency of Silicon Solar Wafer and Python | GUOFENG YU | Shanghai Jiaotong University |
| poster | 5ThP.21 | 195 | Tunnel Oxide Passivated Contacts Using Sputtered Amorphous Silicon and Spin-On-Doping | Shasha Li | Tokyo Institute of Technology |
| poster | 5ThP.22 | 401 | Electrical loss analysis of SHJ solar cells based on amorphous and nanocrystalline carrier-selective layers: using dark and light J-V characteristics | SHRESTHA BHATTACHARYA | Indian Institute of Technology, Delhi |
| poster | 5ThP.23 | 172 | Structural Simulation of Back Contact Heterojunction Solar Cells | Yue An | Lanzhou University |
| poster | 5ThP.24 | 359 | Strategies for achieving excellent surface passivation performance on n-type silicon by ALD-deposited AlOx thin film | Shiyu Qu | Institute of Electrical Engineering |
| poster | 5ThP.25 | 348 | An Improvement of Surface Anti-reflectance by Laser Directly Texturing and Post Treatment Applied in c-Si Solar Cell | Haobo Wang | East China University of Science and Technology |
| poster | 5ThP.26 | 107 | Improvement in the passivation quality of Cat-CVD i-a-Si by applying Bayesian optimization | Ryota Ohashi | Japan Adovanced Institute of Science and Technology |
| poster | 5ThP.27 | 209 | Compensating Cutting Losses by Passivation Solution for Industry Upgradation of TOPCon and SHJ Solar Cells | Wenheng Li | Hebei Key Lab of Optic-Electronic Information and Materials College of Physics Science and Technology Hebei University |
| poster | 5ThP.28 | 175 | Effectiveness of Al-induced Charged Oxide Inversion Layer on Pyramidal Textured Si Surfaces | Hiroki Nakajima | Japan Advanced Institute of Science and Technology (JAIST) |
| poster | 5ThP.29 | 118 | Hydrogen Passivation Enhancement by Nanocrystal Silicon Process in Heterojunction Cells | Chen-Wei Peng | Soochow University |
| Area6. Performance and Reliability of PV modules | |||||
| 9-Nov-23 | |||||
| User Code | Topic | Name | Unit | ||
| poster | 7ThP.1 | 614 | Development and Application of SolarLite, a Design and Simulation Tool for Photovoltaic Power Plants Based on SAAS | Jianbo Bai | Hohai University |
| poster | 7ThP.2 | 602 | Photovoltaic system data analysis in various installation environments | Woogyun Shin | Korea Institute of Energy Research |
| poster | 7ThP.3 | 607 | Analysis of output characteristics of solar modules according to long-term reliability test | Youngchul Ju | Korea Institute of Energy Research |
| poster | 7ThP.4 | 701 | Parameter design of EMI filter for photovoltaic inverter considering noise source impedance | Mingjie Li | Hefei University of Technology |
| poster | 7ThP.5 | 671 | Research on Improved Phase-Locked Loop for DC Offset and Harmonic Interference | Xuzhi Wang | Hefei University of Technology |
| poster | 7ThP.6 | 659 | Optimization study of photovoltaic hydrogen production system architecture scheme | Jing Liu | Hefei University of Technology |
| poster | 7ThP.7 | 273 | Solar Irradiance Analysis of PV Module Surfaces in Complex Environments | Youkang Gong | Nankai University |
| poster | 7ThP.8 | 538 | Connection and operation modes of energy storage system in photovoltaic power station | Jianping Zhou | Gansu Natural Energy Research Institute |
| poster | 7ThP.9 | 590 | Forecast Error Analysis for Optimal Operation of PV Power Plants | Kurumi Itoi | Tokyo University of Science |
| poster | 7ThP.10 | 461 | Three-phase four-leg Inverter with Unbalanced Load Research on Fourth Leg Multiplexing Active Power Decoupling Technology | Shuo Zhang | Hefei University of Technology School |
| poster | 7ThP.11 | 244 | Evaluation of prediction models for forecasting photovoltaic power output | Caixia Li | unsw |
| poster | 7ThP.12 | 281 | Processing From 3d Point Cloud To Building Model For Photovoltaic System Design | Qian Jiang | Nankai University |
| poster | 7ThP.13 | 490 | Accelerated Aging of PV Cables -The Development of Methods Towards Combined-Accelerated Stress Testing | David C. MILLER | National Renewable Energy Laboratory |
| poster | 7ThP.14 | 358 | Photovoltaic Medium-Voltage DC Collection System Based on DC Collector | Feng An | 1. Beijing Sifang Jibao Engineering Technology Co., Ltd. |
| poster | 7ThP.15 | 67 | Method for Minimizing the Glare of Photovoltaic Modules at Northeast Asia Airport | Chungil Kim | Seoul National University of Science and Technology |
| poster | 7ThP.16 | 96 | Fault Diagnosis Method for Photovoltaic Arrays Based on CEEMDAN-LSTM | Zenan Yang | Hohai University |
| poster | 7ThP.17 | 150 | Evaluation of Snow Losses in Two Bifacial PV Systems: Vertical Agrivoltaic and Ground-mounted Fixed-tilt | Silvia Ma Lu | Mälardalen University |
| poster | 7ThP.18 | 105 | An integrated performance evaluation method for grid-connected PV system based on historical production and operation data | Bowen Shi | Guangdong HuaJu Testing Technology Co., Ltd. |
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Important Dates
Submission Deadline extended to
July 20, 2023
July 20, 2023
Acceptance Notification
Aug. 15, 2023
Aug. 15, 2023
Early Bird
Sept. 20, 2023
Sept. 20, 2023
Conference Date
Nov. 6-10, 2023
Nov. 6-10, 2023
Contact Us
China Renewable Energy Society
China Renewble Energy Society PV Committee
Address: 6 North Ertiao, Zhongguancun, Haidian District, Beijing
Phone: 010-82547025
E-mail: cres-pv@mail.iee.ac.cn
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