TOP > PVSEC-2 (1986) / Beijing, China

PVSEC-2 (1986) / Beijing, China International PVSEC-II Conmittees Message Zou Xun ▲Back to TOP

■ 1. Photovoltaic Program and Activities Status and Future of Photovoltaics in PRC 1-1-1

Wei Yan-Zhang, Li Wen-Zi, Liu Sheng and Hu Hong-Xun PRC Solar Energy Society Tianjin Institute of Power Sources Recent Trends in European Photovoltaic Activities

1-1-2

W. Palz Commission of the European Communities Status of the United States National Photovoltaic Program

1-1-3

Morton B. Prince U. S. Uepartment of Energy The Solar Energy Research Institute Photovoltaic R & D Program, Research for Now and the Future : An Overview

1-1-4

Jack L. Stone Director Solar Electric Research Division Solar Energy Research Institute, U.S.A. Utilization of Solar Powered Irrigation Pumps in the Village of Basaisa, Egypt

1-1-5

Salah Arafa The American University in Cairo, Egypt From R&D To Product Dissemination : Photovoltaics in France

1-1-6

A. Claverie, B. Chabot Agence Francaise pour la Maitrise de l' Energie (AFME), France Flat-Plate Solar Array (FSA) Project 11 Years of Progress 1975 To 1986

1-1-7

William T. Callaghan Jet Propulsion Lab., USA Present Status and Future Direction of Solar Cell Manufacturing Technology in Japan

1-1-8

Tamotsu Mukai J. Shigeta*, T. Segawa*, S. Ikeda*, S.Wakamatsu* Director for Solar Energy Technology, Sunshine Project Promotion Head-quarters, Agency of Industrial Science and Technology, Ministry of International Trade and Industry, *New Energy Development Organization Photovoltaic Program in Indonesia

1-1-9

Melanie Juwono, Meirios Moechtar and Abubakar Lubis BPP Teknologi-Indonesia The Development of Photovoltaic Science and Engineering in the Inner Mongolia Autonomous Region

1-1-10

1-1-11

Ji Binghou, Zhang Cunsheng and Liu Yajun* Inner Mongolia University *Inner Mongolia Solar Energy Equipment Factory Hohhot, China Amorphous and Multicrystalline Silicon : 25 Basic and Applied Research Teams in a French Coordinated Programme

A. Claverie*, B. Equer** *Agence Francaise pour la Maitrise de l'Energie (AFME), France **Centre National de la Recherche Scientifique (CNRS/PIRSEM), France An Evaluation of Photovoltaic Applications in Developing Countries 1-1-12

A. Derrick I. T. Power Limited, Mortimer Hill, Mortimer An Integrated Approach To Evaluating the Use of Stand-Alone Power Systems vs. Electric Grid Extension

1-1-13

Clinton J. Andrews, P. E. Meridian Corporation, U.S.A. Photovoltaic Generators for Isolated Dwellings in Metropolitan France and Her Overseas Territories : Dissemination Strategy

1-1-14

A. Claverie, P. Caroller, N. Dyevre Agence Francaise pour la Maitrise de l' Energie (AFME), France ▲Back to TOP

■ 2. Photovoltaic Power Systems The PWM Boost Inverter in Photovoltaic Power Systems 1-2-1

Xia Xiao-Qing and Cai Rong-Fang Electrical Eng. Dept. Zhejiang University, China 6 KW Solar Powered Pumping System for Thailand

1-2-2

K. Taketani and N. Yoshioka Kyocera Corporation Chiba Sakura Plant Design and Optical Properties of Compound One Facet Concentrators

1-2-3

Lu Jingxiao Department of Physics, Zhengzhou University, China Distributed Rural Electrification in Isolated Areas

1-2-4

L.Castaner, M. Domingo, J.Garcia-Hernandez and A. Mitja E.T.S.I Telecomunicacion. c/Jorge Girona Salgado (x) Conselleria d'Industria i Energia, Generalitat de Catalunya Fifteen -Months Performance of A 350W Photovoltaic Concentrator Array

1-2-5

Du Fu-Sheng Tianjin Institute of Power Sources, China A Correction on the Approximate Formula of the Declination Angle of the Sun

1-2-6

Wu Sui-Cheng, Cui Rong-Qiang Solar Energy Researching Group, Department of Physics, Xi'an Jiaotong University, China Photovoltaic Power Supply System for a Small Island

1-2-7

Seiji Wakamatsu*, Junji Matumoto*, Masafumi Mutsunobu*, Masayoshi Kumano*, Yoshio Nkai** and Motonoou Yukawa** *New Energy Development Organization, Japan **Mitsubishi Electric Corporation, Japan A New Design For Terrestrial-Use Solar Cell Power System

1-2-8

Chen Tingjin and Wang Lufang Solar Energy Research Institute of Yunnan Teacher's University AN Unattended Microwave Relay Station Powered by the Photovoltaic System

1-2-9

Wang Si-Cheng, Mu Guo-Qiang and Zhu Zhenyuan The 6th Research Institute of Ministry of Electronics Industry, China Constructional Experience of the 1st Section of Delphos Plant

1-2-10

Vittorio Albergamo Enea, Italy Composite Utilization of Silicon Solar Power Supply For Non-Interlocked Station

1-2-11

Huang Xijian and Lu Wenyu Research & Design Department of Signal & Comnunication Company, Ministry of Railways

1-2-12

Stratification in the Development of Solar Cell Power Units and Their Applications Luo Peilin Ministry of Electronics Industry, China Energy Output and Efficiency of Two Grid-Connected PV-Plants in A Northern Climate

1-2-13

Mats Andersson, Christer Brunström*, Sweden Jonas** K-Konsult, Sweden *Swedish State Power Board Alvkarleby Laboratory, **Hedströrn Inst of Microwave Technology, Sweden Development and Performance of the "Miner" 3.0kW Point-Focus Photovoltaic Concentrator

1-2-14

F. Chenlo, G.Sala and M.Cid Instituto de Energia Solar, E.T.S.I. Telecomunicacion(U.P.M.) Ciudad Universitaria, SPAIN An Interactive Photovoltaic Performance Analysis Package

1-2-15

Saifur Rahman Electrical Engineering uept. Ibrahim Coulibaly Physics Department Virginia Tech, USA ▲Back to TOP

■ 3. Photovoltaic Measurement and Evaluation Techniques Development of Solar Simulators in China 1-3-1

Zhong Ji-Gong, Chen Xing, Lang Yong-Zhi and Shi Wen-Ke Changchun Institute of Optics and Fine Mechanics, Academia Sinica A Method For Measuring the Conversion Efficiency of Tandem Solar Cells Troy, Michigan 48084 U.S.A.

1-3-2

T.Glatfelter, J. Burdick and W. Czubatyj Energy Conversion Devices, Inc. A Simple Method of Calibrating and lo1easuring Solar Cell Short Circuit Current

1-3-3

Yu Pei-Nuo, Li Chun-Yan and Wang Yu-Xue Tianjin Institute of Power Sources, China Automatic Measurement and Analysis of Various Characteristics of Solar Cells

1-3-4

Li Yibing, Wang Xingrei and Xing Weihua Changchun Institute of Applied Chemistry Academia Sinica Spectral Irradiance Distribution of A Typical Chinese Solar Simulator

1-3-5

Lang Yong-Zhi, Yu Pei-Nuo* Zhong Ji-Gong and Li Wen-Jun Changchun Institute of Optics and Fine Mechanics, Academia Sinica *Tianjin Institute of Power Sources Photovoltaic Technology Evaluation*

1-3-6

Eldon C. Boes and Michael G. Thomas Sandia National Laboratories Albuquerque, USA Photovoltaic Components and Systems Testing : A Proposed Program

1-4-1

Meirios Moechtar and Melanie Juwono BPP Teknologi-Indonesia Solar Powered Cathodic Protection For the Lock Gate

1-4-2

Wang Si-Cheng and Huang Heng The 6th Research Institute of Ministry of Electronics Industry, China Practical Method of Solar Cell Modelization

1-4-3

You Zhi-De Tianjin Institute of Power Sources, China 10KWp Solar Powered Village System For China

1-4-4

K. Kimura and S. Fukuba Kyocera Corporation Chiba Sakura Plant A Study of Silicon Solar Cell Series For Space Uses

1-4-5

Tang Ze-Qi, Shi Wen-Zao, Wang Zhao-Ming, Chen Shu-Kang and Li Guo-Xin Shanghai Xin Yu Power Supply Factory

On-Board Solar Cell Calibration Set 1-4-6

Zhang Zong Ping and Zhang Ya-Chen Space Science and Technology Center, Chinese Academy of Sciences Seven Years of Rural Photovoltaic Pumping Experience In Mali, Socio-Technical Results and Economic Analysis

1-4-7

A. Claverie*, B. Meunier** and J. Billerey*** *Agence Francaise pour la Maitrise de l'Energie(AEME), France **Strategy-Energy-Environment-Development, ***Cooperation Francaise au Mali, Mali A Pilot Test For Solar Energy Color Television Repeater

1-4-8

Wang Yichuan and Zhao Guoquan Yunnan Semiconductor Devices Factory Automatic Sun-Orientation Device For Solar Cell Calibration

1-4-9

Wang Ji-Li, Pan Zhong-Ning, Chang Li-Yen and Wang Zao-Ming Shanghai Xin Yu Power Supply Factory Photovoltaic Refrigerators and Lighting Systems For Medical Use

1-4-10

A. Derrick I.T. Power Limited, Mortimer Hill, Mortimer Design of Solar Cell Power System

1-4-11

Sun Zhen-Dong Tianjin Institute of Power Sources, China 1500W Photovoltaic Power Source System For Military Communication

1-4-12

Zhou Chengbai and Shen Guoxian The Product Design Institute, Changjiang Battery Factory, Electronics Ministry Electromechanical Matching of Water Pumping Systems to Photovoltaic (PV) Arrays

1-4-13

S. Singer, A. Braunstein Faculty of Engineering, Tel-Aviv University Tel-Aviv, Israel ▲Back to TOP

■ 1. Polycrystalline Silicon Solar Cells and Materials Design and Development of Silicon-Film Solar Cells 2-1-1

Allen M. Barnett, Robert B. Hall*, David A. Fardig* and Jerome S. Culik* Electrical Engineering Dept. Univ. of Delaware, USA, *Astropower Div./Astrosystems, Inc., USA Recent Results on Epitaxial Solar Cells Made From Metallurgical Grade Si

2-1-2

M. Caymax2, V. Perraki1, J.L. Pastol3 J.E. Bouree1, M. Eyckmans2, R. Mertens2, G.Revel3 and M. Rodot1 1. C.N.R.S., Meudon 2. IMEC, Leuven 3. C.N.R.S., Vitry Production and Characterization of Si-Sheets Grown By The HSW Technique

2-1-3

J.G. Grabmaier, R. Falckenberg, W.W. Krühler, F.Lutz* Siemens Research Laboratories, FRG, *Fraunhofer-Gesellschaft-ISE, FRG Hydrogen Passivation of Grain Boundaries in Poly-crystalline Silicon Solar Cell

2-1-4

Ji Binghou and Zhang Cunsheng Inner Mongolia University, China Passivation of Polycrystalline Silicon Solar Ceils by Hydrogen Ion Beam*

2-1-5

Xu Zaigui, Fan XlanJun, Pan Xianzheng, Xia Baihua, Lin Anzhong*, Fan Zhiqin* and Shen Huayuan* Ion Beam Physics Lab., Department of Physics, Wuhan University, China, *General Research Institute of Non-Ferrous Metals, China A New Process For Making Polycrystalline Silicon Solar Cells With Integral Screen Printing Technique

2-1-6

2-1-7

Xiang Qun*, M. Eyclanans and R. Mertens Katholieke Universiteit Leuven ESAT Laboratory, Belgium, *Zhejiang University, China Influence of Aluminum External Gettering on Properties of P Type Polycrystalline Silicon Wafers and Cells

S. Martinuzzi, H. Poitevin, G. Mathian and M. Zehaf Laboratoire de Photoelectricite des Semi-conducteurs, University of Marseille Research on the Cast Polycrystalline Silicon Ingots For Low Cost Solar Cell Applications 2-1-8

Shi Xing-Di, Yao Zu-Min, Qi Dian-Nong and Shi Zheng-Ping Shanghai Non-Ferrous Metals Research Institute, China Progress in Ingot and Foil Casting of Silicon

2-1-9

D. Helmreich Heliotronic GmbH Streak Defect Influencing on Performance of Solar Cells in Semicrystalline Silicon and Its Elimination

2-1-10

Tang Hou-Shun and Yu Xi-Tung Fudan University, China Deformation in Silicon Ribbons

2-1-11

Martin H. Leipold Jet Propulsion Laboratory Low Cost Processes For Polycrystalline Silicon Solar Cells

2-1-12

A. Z. Lin, L. D. Zhou, Z. Q. Fan,L. Tang and X. W Zhao General Research Institute of Non-Ferrous Metals, China Recent Advances in Carbothermic Production of Solar-Grade Silicon Using High-Purity Starting Materials

2-1-13

H. A. Aulich, J.G. Graanaier, F.-W. Schulze, H.-P. Urbach, A. Mühlbauer* Siemens AG, Research Laboratories, *Universitat Hannover The Characterization of Impurities and Grain Boundaries in Silicon Using Volume-Indexed Surface Analysis Techniques

2-1-14

Lawrence L. Kazmerski Solar Energy Research Institute, USA ▲Back to TOP

■ 2. MIS Type Solar Cells Tie Study of Current Transport of ITO/n-Si Heterojunction Solar Cells and Analysis of Infrared Heat Photography 2-2-1

He Shiping, Liu Guangting and Jian Yaoguang Hefei Institute of Electronic Engineering, China, *Nanjing Institute of Technology, China Ion Implanted MINP Silicon Solar Cells

2-2-2

Jia Quanx1, Zhu Changchun and Liu Enke Dept. of Electronic Engineering, Xi'an Jiaotong Univ., China An Investigation on the Mechanism of the UV Light Irradiation Instability of MIS/IL Solar Cell With Silicon Nitride Antireflecting Films

2-2-3 Cheng Yuhua*, Mao Ganru, Guo Weilian Tianjin University, China A Novel Thin-Silicon Solar Cell With High Efficiency and Simple Technology 2-2-4

R. Hezel and K. Jaeger Institute Für Werkstoffwissenschaften 6 Universität Erlangen-Nürnberg, FRG Plasma-Enhanced CVD Silicon Nitride As Anti-reflection Coating of Solar Cells

2-2-5

Mao Ganru, Yuan Xiaoje and Zhang Shilin Electronic Department of Tianjin University, China An Excellent Antireflective Coating For MIS/IL and MINP Solar Cells

2-2-6

Zhu Changchun, Yang Changtai Xi'an Jiaotong University, China, *Xi'an Yanhe Factory, China ▲Back to TOP

■ 3. Solar Cell Technology and Theory (1) 2-3-1

Performance of High Efficiency Si Induced Junction. Solar Cell

Takashi Fuyuki, Shinji Miyagaki and Hiroyuki Matsunami Department of Electrical Engineering, Kyoto University, Japan Theoretical Spectral Response of n+-n/p-p+ Solar Cell 2-3-2

Chen Ting-jin and Liu Zu-Ming Solar Energy Research Institute, Yunnan Teacher's University Monte Carlo Modelling of Silicon Solar Cells

2-3-3

E. Arione, S. Bosso, T. A. Shamsi, E. Vittone *K. H. Krebs, **C. Manfredotti TASK R&S S.r.l., Italy *EEC JRC, Italy **Instituto di Fisica Supperiore, Italy High Efficiency Silicon Solar Cells. by. Solid Source Diffusion

2-3-4

S. Banerjee and W. A. Anderson Department of Electrical and Computer Engineering, State University of New York at Buffalo Alumina Thin Film Applied To Silicon Solar Cells

2-3-5

Lin Li-Bin, Xie Jian-Hua and Zou Jun-Ping, Chen Ting-Jin* Physics Department of Sichuan University, *Solar Energy Research Institute of Yunnan Normal University Experimental Characterization of the Effective Recombination Velocity At the High-Low Transition of BSF Silicon Solar Cells

2-3-6

S. Bellone, A. Caruso, P. Spirito and G. Vitale Department of Electronic Engineering, Italy Low-Cost High-Efficiency Solar Cell Module

2-3-7

A. Shibata, M. Asai, Y.Nagahara, S. Nakajima N.Takamori, K. Nishida, R.Imura and A. Suzuki Sharp Corporation, Japan The Si Solar Cells For Space Application Under Investigation

2-3-8

Wang Li-Cai and Wang Jing-Xiao Tianjin Institute of Power Sources, China p-n Junction Formation For Solar Cells Using Rapid Isothermal Heating

2-3-9

Howard Somberg PV Casting, inc. and Global Photovoltaic Specialists, Inc., USA Low Cost Solar Cell Technology

2-3-10

Y. Safir, O. Leistiko and W.G. Proctor Laboratory for Semiconductor Technology Technical University of Denmark, Denmark The Effect of Base Resistivity on the ShortCircuit Current Versus Irradiance Relationship For Silicon Concentrator Cells*

2-3-11

J.M.Gee Sandia National Laboratories Albuquerque, USA The New Study of Parameter Measurement of the Solar Cells*

2-3-12

Huang Xuan and Zhang Feng-Sheng Department of Physics, Wuhan University, China ▲Back to TOP

■ 4. Solar Cell Technology and Theory (2) Electrical and Optical Confinement in Silicon Solar Cells : A Method For Increasing Efficiency in Large Scale Production 2-4-1

M. Garozzo, L. Fornarini and L. Pirozzi ENEA, S. P., Italy Improvement of Polycrystalline Silicon Solar Cells by Anneals in H2 Flow

2-4-2

L. Ammor, G.Mathian, A. Sebbar Moulay and S. Martinuzzi Laboratoire de Photoelectricite des Semiconducteurs, University of Marseille SnO2/Polycrystalline Silicon Solar Cell

2-4-3

Liu Zu-Ming and Wang Dong-Cheng Solar Energy Research Institute, Yunnan Teacher's University

2-4-4

Effect of Ethane Plasma Annealing on Polycrystalline Silicon Barrier Heights and Minority Carrier Capture Cross-Sections E. Maina-Ayiera Department of Physics, University of Nairobi, Kenya Effects of Surface Passivation on Silicon Solar Cells

2-4-5

Chen Wen-Jun, Xie Hong-Li, Wang Chen-Lan, Zhang Shu-Qin and Chen Jian-Hui Tianjin Institute of Power Sources, China Performance of Silicon Solar Cells. N and P Type Substrates

2-4-6

M. Cid, J. M. Ruiz and A. Cuevas Instituto de Energía Solar E.T.S.I. Telecomunicación(U.P.M.) Ciudad Universitaria, SPAIN The Influence of Impurities Gettering on Performance of Single Crystalline Silicon Solar Cell by Laser Damage

2-4-7

Ji Binghou, Zhang Cunsheng and Li Jian Inner Mongolia University, China The Influence of Laser Processing on Printed Electrode Crystalline Silicon Solar Cell

2-4-8

Huang Song-Ling, Yang Jin-Huan, Yu Jia-Huan and Cui Rong-Qiang Department of Physics, Xi'an Jiaotong Univ., China A Method For the Direct Measurement of Solar Cell Junction Ideality Factor

2-4-9

Jia Quanxi and Liu Enke Dept. of Electronic Eng., Xi'an Jiaotong University, China A Grid System For Concentrator Solar Cell

2-4-10

Ma Ho-Ting E.E.E. Zhejiang University A New Model For MINP Silicon Solar Cells

2-4-11

Jia Quanxi, Zhu Changchun and Liu Enke Dept. of Electronic Engineering, Xi'an Jiaotong University, China Using Proton Implantation to Improve Properties of MIS/IL Solar Cells

2-4-12

He Shiping Hefei Institute of Electronic Engineering, China Liu Guangting Nanjing Institute of Technology, China Carrier Transport Mechanisms of Spray-Deposited SnO2 /SiOx/n-Si Solar Cells

2-4-13

Takao NAGATOMO Yasushi MATSUMOTO and Osanru OMOTO Shibaura Institute of Technology, Japan A Coupled Parallel Sources Model For Inversion Layer Solar Cells

2-4-14

Kaili Jiao and Weiliang Guo* Physics Department of Shandong University Shandong, China Photocells Sensitive to Weak Light

2-4-15

Gong Quan-Bao and Zhou Yun-Hua Shanghai Institute of Energy Multicrystalline Silicon Solar Cells Processed by Unanalyzed Ion Implantation and Rapid Thermal Annealing

2-4-16

Li Jin Chai, M. Ajaka, J.C. Muller, P.Siffert and J. Fally* CRN(IN2P3), Lab., France, *CGE-Lab.de Marcoussis, France ▲Back to TOP

■ 1. Review and Stabilities of Amorphous Silicon Solar Cells Physics and Technologies of Efficiency Improvement For Amorphous Silicon Solar Cells 3-1-1

3-1-2

Yoshihiro HAMAKAWA Faculty of Engineering Science, Osaka Univ., Japan The Status and Future of Government-Supported Amorphous Silicon Research in the United States W. Wallace and E. Sabisky Solar Energy Research Institute, USA

Review of the Light-Induced Effect in Amorphous Silicon Materials and Solar Cells 3-1-3

Edward S. Sabisky Solar Energy Research Institute, USA Efficient and Stable Amorphous Silicon Alloy Solar Cells Using Fluorinated Materials

3-1-4

Jeffrey Yang, Troy Glatfelter, Joseph Burdick, Jeffrey P. Fournier, Lee Boman, Robert Ross and Ralph Mohr Energy Conversion Devices, Inc., USA Noble Stabilities of a-SiC/a-Si Tandem Solar Cel. With Blocking Barriers

3-1-5

H.Yamagishi, J.Takada, N.Fukada, M.Yamaguchi, K.Nishimura, A.Hiroe, M.Kondo Y. Hosokawa, K.Tsuge, T.Nakayama and Y. Tawada Central Research Laboratories, Kanegafuchi Chemical Industry Company Ltd., Japan Light-Induced Changes in a-Si Solar Cells

3-1-6

O. Nabeta, T.Yoshida, A. Asano, K.Maruyama, T. Hama, T. Ichimura, H. Sakai and Y. Uchida Fuji Electric Corporate Research and Development Ltd., Japan Thermal Degradation of a-Si:H Solar cells by Dopant Diffusion

3-1-7

M. Yamaguchi, J. Takada, N. Fukada, K. Nishimura, H. Yamagishi, Y. Hosokawa, H. Hiroe and Y. Tawada Central Research Laboratories, Kanegafuchi Chemical Industry Co., Ltd., Japan Change of Cell Performance of a-Si:H-Solar Cell by Impurities and Doping Profiles in a Large Two-Chamber Reactor

3-1-8

H. Kausche, W. Juergens, E. Gtinzel., R. Plattner and J. Grabmaier Siemens Research Laboratories, Germany Experimental Evidence of Dangling Bond Creation in Amorphous Hydrogenated Silicon by Light Soaking

3-1-9

Junji Shirafuji, Kazuhiro Shirakawa and Shunsuke Nagata Department of Electrical Engineering, Faculty of Engineering, Osaka University, Japan Accelerated Stress Testing of a-Si:H Cells

3-1-10

Jay W. Lathrop, Edward L. Royal* Center for Semiconductor Device Reliability Research, Clemson University, *Jet Propulsion Laboratory ▲Back to TOP

■ 2. Amorphous Silicon Solar Cells and Technology(1) Development of 40 x 120 CM2 a-Si Solar Cells 3-2-1

H.,Sakai, Y. Ichikawa, K. Maruyama, T. Yoshida, N.Itoh, M. Kamiyama and Y. Uchida Fuji Electric Corporate Research and Development Ltd., Japan Optimum Design of a-Si/Poly c-Si Stacked Solar Cell

3-2-2

Xu Zhong-Yang*, Y. Matsumoto, K. Hanaki, G. P. Wei**, H. Okamoto and Y. Hamakawa Faculty of Engineering Science, Osaka Univ. Toyonaka, Japan Amorphous Silicon Solar Cell Modules Fabricated With A Single Chamber Load Lock Deposition System

3-2-3

C.R. Dickson, J. Pickens and A. Wilczynski Solarex Thin Film Division, USA Fabrication of the Integrated a-Si Solar Cell With 9.9% Conversion Efficiency

3-2-4

S. Yamazaki, M. Abe, S. Nagayama, K. Shibata, M. Susukida, T. Fukada, M.Kinka, I. Kobayashi and K. Suzuki Semiconductor Energy Laboratory Co., Ltd., Japan Development of High Efficiency Amorphous Silicon Solar Cell With ITO/n-a SiC:H/i-a Si:H/p-μcSi:H/Mo

3-2-5

Ho Hong-Xun, Zhang De-Qun, Zhang Xin-Hui,Sun Zheng and Wu Bin Zheng Tianjin Institute of Power Sources Superlattice Structure P-Layer a-Si Solar Cells Fabricated by Photo-CVD Method

3-2-6

3-2-7

S. Tsuda, H. Tarui, T. Matsuyanta, H. Haku, K. Watanabe, Y. Nakashima, S. Nakano and Y. Kuwano Research Center, SANYO Electric Co., Ltd, Japan Influence of Activation Energy of Intrinsic a-Si Film on Collection Efficiency in Solar Cells

Xuanying Lin, Datong Yang and Zhonghe Xi Department of Radio-Electronics, Beijing Univ., China High Photovoltaic Performance a-SiGe:H Solar Cells Prepared by Photo-CVD 3-2-8

M. Konagai, P. Sichanugrist, S. Yamanaka and K. Takahashi Tokyo Institute of Technology, Department of Physical Electronics, Japan Doping of PIN-a-Si:H Solar Cells By Plasma Assisted Diffusion

3-2-9

G.H.Bauer, G.Bilger, H.-D. Mohring, M.B.Schubert, H.C. Weller Institut Fuer Physikalische Elektronik, Univers. Stuttgart, Germany Correlation Between Physical Properties and Structure of Amorphous Silicon Carbide Films Prepared by Glow Discharge

3-2-10

F. Demichelis*,** G. Kaniadakis*, E Mezzetti*, P. Mpawenayo***, A. Tagliaferro*, E. Tresso*, S. Bourquard****, G. Della Mea*****, F. Rava** *Dipartimento di Fisica, Politecnico Torino, Italy **Gruppo Nazionale Struttura della Materia del C.N.R., ***On Leave from Universite Nationale du Rwanda, CEAER-BP, Rwanda ****Electtrorava S.P.A., Italy, *****Dipartimento di Fisica, Università di padova, Italy and Gruppo Nazionale Struttura della Material del C.N.R. Effect of Tin Oxide Film Properties on the Performance of a-Si Solar Cell

3-2-11

M. Hirata, M. Misonou and H. Kawahara Central Research Lab., Nippon Sheet Glass Co., Ltd., Japan DOS Distribution in Si H LPCVD a-Si As Determined by a New SCLC Method

3-2-12

C. Manfredotti, G. Rinaudo, L. Montaldi, *P. Creti and *S. Galassini Istituto di Fisica Superiore, Italy, Consiglio Nazionale delle Ricerche, Italy *Dipartimento di Fisica, Italy Improvement of P/I Interface of a-Si Solar Cells Prepared by Photo-CVD

3-2-13

M. Konagai, H. Takei*, W.Y. Kim and K. Takahashi Tokyo Institute of Technology, Department of Physical Electronics, Japan *KDK, Japan Recent Progress in Vacuum Evaporated Thin Film Silicon Solar Cells

3-2-14

P.H. Fang and J.H. Kinnier Department of Physics, Boston College, USA Performances of Inverted P.I.N. and SiC(B). I.N. a-Si:H Solar Cells Produced on s.s. Substrates

3-2-15

R. Martins, L. Guimaraes, N. Carvalho, M. Quintela, I. Pereyra* and A.M.Andrade* Centro de Fisica Molecular da F.C.T. Universidade Nova de Lisboa *Laboratório de Microelectrónica-EPUSP-são Paulo-Brasil A New Analysis Method To Obtain Depth Profiles of Solar Cell Photovoltaic Characteristics -DICE (Dynamic Inner Collection Efficiency)

3-2-16 T. Takahama, M. Isomura, S. Sakai, H. Yagi, K. Watanabe, S. Tsuda, S. Nakano and Y. Kuwano Research Center, SANYO Electric Co. Ltd., Japan A Comparison Study of the Dark Forward Current Voltage Characteristics of Amorphous Silicon Alloy Diodes 3-2-17

Robert Ross, Jeffrey Yang and Ralph Mohr Energy Conversion Devices, Inc. Troy, USA Amorphous Silicon X-Ray Sensor

3-2-18

WEI Guang-Pu*, Dusit KRUANGAM, Xu Chong-yang**, Hiroaki OKAMOTO and Yoshihiro HAMAKAWA Faculty Of Engineering Science, Osaka Univ., Japan Monte Carlo Simulation of the Transient Photovoltaic Effect in Amorphous Silicon Solar Cells

3-2-19

E. Arione, T.A.Shamsi, E. Vittone, *C.Manfredotti TASK R&S S.r.l, Italy *Istituto di Fisica Superiore, Italy Temperature and Intensity Dependences of Current Voltage Characteristics in a-Si : H PIN Solar Cells

3-2-20

3-2-21

Jin Jang, Min Park and Choochon Lee* Dept. of Physics & Research Inst. For Basic Sciences, Kyung, Hee University, Korea *Dept. of Physics, KAIST, Korea Improvements of Interfaces in Tandem-Type Amorphous Silicon Alloy Solar Cells

H. Sasaki, M.Aiga, M.Usui, K. Kawabata, T. Ishihara, S. Terazono, K. Sato, K. Okaniwa, T. Itagaki, G. Nakamura, Y. Yukimoto and K. Fujikawa LSI R&D Laboratory, Mitsubishi Electric Corp., Japan Amorphous Silicon Solar cells in A Roll-To-Roll Plasma CVD Process 3-2-22

T. Hirobe, M. Katayama, Y. Shimada, T. Nagayasu, H. Oka, H. Izawa, H. Nanbu N. Shiozaki, H. Morimoto, T. Takemoto and N. Nakajima Energy Conversion Laboratory, SHARP Corporation, Japan Improvement of Contact Characteristic Between ITO and p+ a-Si:H

3-2-23

Xiong Shaozhen, Han Maochou, Wang Zhongpan, Ma Fuming, Chen Shenlin and Xu Wenyuan Department of Electronic Science, Nankai Univ., China ▲Back to TOP

■ 3. Amorphous Silicon Solar Cells and Technology(2) A Hybrid Amorphous Silicon Photovoltaic and Thermal Solar Collector 3-3-1

Branislav Lalovic, Zoltan Kiss and Herbert Weakliem Boris Kidric Institute of Nuclear Sciences, Yugoslavia * Chronar Corporation, N. J. USA The Properties of a-Si Films and Solar Cells Fabricated by the Super Chamber

3-3-2

S. Nakano, T. Takahama, M. Isomura, M.Nishikuni K. Watanabe, N. Nakamura, S.Tsuda, M. Ohnishi* Y. Kishi* and Y. Kuwano Research Center, SANYO Electric Co., Ltd., Japan *Applied Research Center, SANYO Electric Co., Ltd., Japan The Effect of Temperature on PIN a-Si : H Solar Cells

3-3-3

Xiong Shaozhen, Li Changjian, Li Delin and Han Maochou Dept. of Electronic Science, Nankai Univ., China Weak-Illumination Effect in a-Si : H Solar Cells

3-3-4

Zhonghe Xi, Datong Yang and Xuanying Lin Department of Radio-Electronics, Beijing Univ., China Influence of Doping Form on Characteristics of a-Si : H Solar Cell

3-3-5

Deng Xiaojun, Dan Feng, Li Jun, Li Meiying Zhao Shujuan, Li Changying,Wang Chaoying and Xiao Dechuan General Research Institute of Non-Ferrous Metals, China Computed Tomographic Diagnosis on a-Si/Poly Si Stacked Solar Cells

3-3-6

H. Takakura, Y. Matumoto, Xu Zhong-Yang, H. Okamoto and Y. Hamakawa Faculty of Engineering Science, Osaka Univ, Japan Mechanism of Reverse Bias and Heat Treatment on P-I-N a-Si Solar Cells

3-3-7

Sun Zhonglin, Xiong Shaozhen, Han Maochou, Wu Le, Yan Baojie and Xu Wenyuan Dept. of Electronic Science, Nankai University, China Optical Properties of a-Si : H/a-C : H and μc Si : H/ a-Si : H Multilayers

3-3-8

Z. M. Chen, D.S. Jiang, X. Y. Mei, J, N. Wang and G. L. Kong Institute of Semiconductors, Academia Sinica, China Electrical and Transport Properties of LPCVD Amorphous Silicon

3-3-9

C. Manfredotti, *R. Murri and *L. Schiavulli Istituto di Fisica Superiore, Italy, Consiglio Nazionale delle Ricerche, Italy, *Dipartimento di Fisica, Italy Study of the Time-Dependent Photocurrent Responses in a-Si:H Solar Cells

3-3-10

Gao Guang, Miao Qinghai, Cao Baocheng, Wang Yiantao and Dai Guocai Department of Physics, Shandong University, China The New Measurement Method of the Optical Constants For a-Si :H Films

3-3-11

Hiroshi KEZUKA, Makio AKIMOTO**, Yasuo GEKKA***, Yotaro TAGUCHI* Department of Electronics, Faculty of Engineering, Tokyo Engineering University, Japan, *College of Engineering, Kanto Gakuin Univ., Japan, **Department of Electronics, Faculty of Engineering, Tokai University, Japan

3-3-12

Preparation and Investigation of Wide-Gap and High-Conductivity GD n+ a-Si : H

Chen Guanghua, Zhang Yafei, Zhang Fangqing and Yu Guangmin Physics Department, Lanzhou University, China Effects of Annealing on the Microstructures of Glow-Discharge Produced Hydrogenated Amorphous Silicon 3-3-13

Seung-Hun Yang* and Choochon Lee** *Dept. of Phys., Teachers College, Kyung Pook Nat'l Univ., Korea **Department of Physics, Korea Advanced Inst. of Science and Technology, Korea XPS Study on the Surface of Amorphous Silicon

3-3-14

Lin Hongyi, Li Yingxue Dept. of Electron. Eng., Beijing Institute of Technology, China, *Microelectronics Research Center, Beijing University, China Indium Tin Oxide Films Prepared by an Evaporation Technique

3-3-15

Ma Ping, Ma Honglei, Yu Yishun, Li Shuying and Wang Jiajian Department of Physics, Shandong University Jinan, China The Effect of the Structure and Annealing on the Stability of a-Si : H

3-3-16

Wang Ying, Huang Ke, Jiang Mianheng and Zhang Xikang Shanghai Institute of Metallurgy, Academia Sinica, China Growth Mechanism of a-Si by Evaporation With Simultaneously Doping Hydrogen

3-3-17

Fang Da-Wen, Su Chang-Hou and Han Jun Department of Radio Electronics, Beijing Polytechnic University Large-Area a-Si Film Deposition by Photo-CVD Technique and Its Application To Solar Cells

3-3-18

T. Ichimura, T. Ihara, A. Kikuchi, Y. Ichikawa T. Hama, H. Sakai and Y. Uchida Fuji Electric Corporate Research and Development,. Ltd., Japan Field Test of a-Si Solar Cells in Snow

3-3-19

T. Nakayama, M. Yamaguchi, K. Tsuge, Y. Tawada, T.Fujiwara*, A. Nozaki* Central Research Laboratories, Kanegafuchi Chemical Industry Co. Ltd., Japan, *Kubota Ltd., Japan Stability of Amorphous Silicon Solar Cells

3-3-20

Feng Lianghuan, Zhou Xinming, Cai Yaping, Zheng Jiagui, Xie Bizheng*, Guo Huanchong* and Wang Minghua* Department of Physics, Sichuan Univ., China, * Institute of Nuclear Science and Technology, Sichuan University, China Growth of a-Si Solar Cells in Consumer Product Market

3-3-21

S. Yamashita, H. Sarai, H. Sakai and Y.Uchida Fuji Electric Co., Ltd., Japan *fuji Electric CRD. Ltd. Microstructure Investigation of p-Type Si1-x Alx : H Fi1ms Prepared by DC Magnetron Co-Sputtering

3-3-22

Liu Jiamo, Lu Zhenghong Department of Physics, Yunnan University Kunming, P.R.China ▲Back to TOP

■ 1. Compound and Tandem Solar Cells Polycrystalline Thin Film Solar Cells - State of the-Art 4-1-1

F. Pfisterer and W.H. Bloss Institut Fuer Physikalische Electronik Universitaet Stuttgart, F. R. Germany On the Conversion Efficiency of Tandem Solar Cells

4-1-2

Ivan CHAMBOULEYRON*, France Dario CHELLO** and Pierre BARUCH *S.C.M.E., L.P.N.H.E., France, **Groupe de Physique des Solides, (Laboratoire associe au C.N.R.S.), Universite de Paris, France 22% Efficient and High Radiation-Resistant InP Solar Cells

4-1-3

Masafumi Yamaguchi, Akio Yamamoto, Yoshio Itoh and Chikao Uemura NTT Electrical Communications Laboratories, Japan MOCVD Growth of GaAs on Si For Light Weight High Efficiency Solar Cells

4-1-4

Shiro Sakai, Tetsuo Soga*, Masanari Tekeyasu and Masayoshi Umeno Department of Electronic and Computer Eng. Nagoya Institute of Technology, *Nagoya Univ., Japan

4-1-5

Photovoltaic Characteristics of Bulk InP Solar Cells K.K. Parat, S. Bothra, H. Bhimnathwala, I.B. Bhat, S.K. Ghandhi and J.M. Borrego Electrical, Computer, and Systems Engineering Department, Rensselaer Polytechnic Institute Troy, USA Novel Two-and Three-Junction Monolithic Multijunction Solar Cells*

4-1-6

J. M. Gee Sandia National Laboratories, Albuquerque, USA Parameter Analysis of High Efficiency Ga1-x Alx As/GaAs Solar Cell

4-1-7

Guan Liming, Sui Zhaowen, Yu Wenjie and Cheng Fenkou Shanghai Institute of Metallurgy, Academia Sinica, China Balance of System Mass in Comparing GaAs and Silicon Solar Cells For Space Use

4-1-8

L. Castaner, J. Calderer, L. Prat, E. Garcta Moreno and R. Alcubilla Departarnento de Electronica. E.T.S.I. Telecomunicacion, Spain Curve Fitting of Spectral Responses of P-AlGaAs/P-GaAs/N-GaAs Solar Cells*

4-1-9

Chen Chao, Wang Ziqi, Yank Qianzhi*, Min Huifang*, Wang Zhenying* and Wang Xingda* Phys. Dept. of Xiamen University, China, *Shanghai Institute of Metallurgy, Academia Sinica Photovoltaic and Electrical Properties of ITO/ WSe2 Junctions

4-1-10

M. Ch. Lux-Steiner, R. Spah, M. Obergfell, E. Bucher, H. W. Schock* and J. Kimmerle* Universität Konstanz, FB Physik, F.R.G. *Universität Stuttgart, Inst. für Phys. Electronik, F.R.G. CdTe Solar Cells Grown by OMVPE on InSb Substrates

4-1-11

N.R. Taskar, H. Bhimnathwala, S. Bothra, I. B. Bhat, S.K. Ghandhi and J.M. Borrego Electrical, Computer and Systems Engineering Dept. Rensselaer Polytechnic Institute, USA Thin Film Tandem Solar Cells Based on Chalcogenides and Chalcopyrites

4-1-12

B. Dimmler, J. Kimmerle, R. Menner, F.Pfisterer and a. H.W. Schock Institut fuer Physikalische Elektronik, Universitaet Stuttgart, F.R. Germany The Influence of the Zinc Content in Sprayed (Cd, Zn)S and Dipped CuxS Layers

4-1-13

G. Berote, Y. de PUYDT, J.-P. MINET, E. Pierson and J. -M. STREYDIO Laboratoire PCES, BELGIUM GaAlAs - GaAs Heterostructure Solar Cells Extension To A Multijunction With Bulk Graded Band-Gap/P-N Junction Application To Concentrator PV Generator

4-1-14 R. Leguerre, F. Therez, G. Vialaret, C. Ganibal and D. Esteve Laboratoire d' Automatique et d' Analyse des Systèmes du C.N.R.S., France Effect of Deposition Parameters and Layer Ageing on the (Cd, Zn)S Sprayed Films Composition 4-1-15

Y. de PUYDT, G. BEROTE, E. PIERSON and J.-M STREYDIO Laboratoire PCES, BELGIUM ▲Back to TOP

■ 2. Compound Solar Cells and Materials The Study of Improving the Performance of Cu2 S/CdS Sintering Solar Cells 4-2-1

Wang Shouchen, Xiao Yinong, Liu Yayan, Wu Shengrong, Cnang Junling, Yuan Shuzhen and Dong Dianhong Changchun institute of Applied Chemistry, Academia Sinica Study on Mechanism of the Stability in Cu2S/CdS Solar Cells

4-2-2

Xiao Yinong, Wang Shouchen, Dung Dianhoung, Yuan Shushen, Wu Shenrong, Chang Junling,Wang Xingrui and Liu Yayan Changchun Institute of Applied Chemistry, Academia Sinica Microstructural Features of NiO Single Crystal

4-2-3

4-2-4

B. Salehpoor University of Tabriz, IRAN Studies on Photovoltaic Generation in Compound Semiconductors

V. K. Farkya, T. Bhartee and R.B. Selot Department of Postgraduate Studies and Research in Physics, R. D. University, Jabalpur, (M.P.), India Some Studies on Photovoltaic Generation Using Germanium Transistor 4-2-5

V.K. Farkya, R.B. Selot. and T. Bhartee Department of Postgraduate Studies and Research in Physics, R. D. University, Jabalpur, (M.P.), India Studies on Electrodeposited CdTe Thin-Film Liquid Junction Solar Cells

4-2-6

Huang Wende, Shen Yuenian, Li Guodong, Yun Grobao, Chang Shengwu Inner Mongolia University ▲Back to TOP

Experience of the French Lighthouse Service in Powering Aid to Navigation either on Land or Flotting aids with Photovoltaic Generators Ctnty Guy Service Technique des Phares et Balises Highly Efficient 150kW Photovoltaic Inverter Masayuki Mori, Noboru Yasaki, Nagataka Seki Kiyoshi Ogawa, Kazutoshi Takahashi Toshiba Corporation Highly Efficient Outdoor type 20kW Photovoltaic Inverter Masayuki Mori, Noboru Yasaki, Shigetoshi Higaki Toshiba Corporation ◀Back to Previous Page

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