| 1 - 6 |
Influence of annealing temperature on the properties of Cu(In,Ga)Se-2 thin films by thermal crystallization in Se vapor
Yamaguchi T, Yamamoto Y, Tanaka T, Tanahashi N, Yoshida A |
| 7 - 12 |
Preparation of CuInSe2 thin films with large grain by excimer laser ablation
Yoshida A, Tanahashi N, Tanaka T, Demizu Y, Yamamoto Y, Yamaguchi T |
| 13 - 18 |
Characterization of Cu(InxGa1-x)(2)Se-3.5 thin films prepared by rf sputtering
Tanaka T, Tanahashi N, Yamaguchi T, Yoshida A |
| 19 - 24 |
Preparation and properties of sprayed CuGa0.5In0.5Se2 thin films
Reddy KTR, Chalapathy RBV |
| 25 - 30 |
Composition control of electrodeposited Cu-In-Se layers for thin film CuInSe2 preparation
Nakamura S, Sugawara S, Hashimoto A, Yamamoto A |
| 31 - 36 |
Study of one-step electrodeposition condition for preparation of CuIn(Se,S)(2) thin films
Kuranouchi S, Nakazawa T |
| 37 - 42 |
Preparation of CuIn(SxSe1-x)(2) thin films by sulfurization and selenization
Ohashi T, Inakoshi K, Hashimoto Y, Ito K |
| 43 - 49 |
Electrical properties of CuInSe2-films prepared by evaporation of Cu2Se and In2Se3 compounds
Park SC, Kwon SH, Song JS, Ahn BT |
| 51 - 56 |
THM growth and characterization of CuGaxIn1-xSe2 solid solutions
Miyake H, Haginoya T, Sugiyama K |
| 57 - 62 |
Deep level transient spectroscopy on ZnO/CdS/CuGaxIn1-xSe2 photovoltaic cells
Lam WW, Yip LS, Greenspan JE, Shih I |
| 63 - 70 |
Analysis of temperature and illumination dependencies of CIS cell performance
Nishitani M, Kohara N, Negami T, Wada T, Igari S, Shimokawa R |
| 71 - 77 |
Chemical bath deposition of CdS buffer layer for CIGS solar cells
Hashimoto Y, Kohara N, Negami T, Nishitani N, Wada T |
| 79 - 85 |
Quantum efficiency and admittance spectroscopy on Cu(In,Ga)Se-2 solar cells
Parisi J, Hilburger D, Schmitt M, Rau U |
| 87 - 95 |
Stability of Cu(In,Ga)Se-2 solar cells and evaluation by C-V characteristics
Kojima T, Koyanagi T, Nakamura K, Yanagisawa T, Takahisa K, Nishitani M, Wada T |
| 97 - 103 |
Superstrate-type CuInSe2-based thin film solar cells by a low-temperature process using sodium compounds
Nakada T, Kume T, Kunioka A |
| 105 - 110 |
XPS analysis of CdS/CuInSe2 heterojunctions
Okano Y, Nakada T, Kunioka A |
| 111 - 117 |
Crystal growth of CuGaxIn1-xSe2 by horizontal Bridgman method
Lam WW, Shih I |
| 119 - 125 |
Growth and characterization of Cu(InAl)Se-2 by vacuum evaporation
Itoh F, Saitoh O, Kita M, Nagamori H, Oike H |
| 127 - 132 |
Temperature dependence of photoacoustic spectra in CuInSe2 thin films grown by molecular beam epitaxy
Yoshino K, Shimizu T, Fukuyama A, Maeda K, Fons PJ, Yamada A, Niki S, Ikari T |
| 133 - 139 |
Growth kinetics and structural characterization of polycrystalline CdTe films grown by hot-wall vacuum evaporation
Seto S, Yamada S, Suzuki K |
| 141 - 146 |
Annealing effect of Cu2Te-Au contact to evaporated CdTe film on photovoltaic properties of CdS/CdTe solar cell
Uda H, Ikegami S, Sonomura H |
| 147 - 153 |
Defect reduction in electrochemically-deposited CdS thin films by annealing in O-2
Goto F, Shirai K, Ichimura M |
| 155 - 161 |
Photovoltaic properties of CdTe solar cells fabricated by close spaced sublimation with screen printed CdTe sources
Ahn BT, Han BW, Chung GY |
| 163 - 168 |
Process damage free thin-film GaAs solar cells by epitaxial liftoff with GaInP window layer
Yazawa Y, Minemura J, Tamura K, Watahiki S, Kitatani T, Warabisako T |
| 169 - 176 |
Characteristics of GaAs solar cells on Ge substrate with a preliminary grown thin layer of AlGaAs
Takahashi K, Yamada S, Unno T, Kuma S |
| 177 - 184 |
Over 27% efficiency GaAs/InGaAs mechanically stacked solar cell
Matsubara H, Tanabe T, Moto A, Mine Y, Takagishi S |
| 185 - 195 |
Performance and parameter analysis of tandem solar cells using measurements at multiple spectral conditions
Adelhelm R, Bucher K |
| 197 - 202 |
Improvement of conversion efficiency by In0.52Al0.48 as window layers for p(+)n InP solar cells
Ueda T, Mohri M, Gotoh S, Kakinuma H, Akiyama M |
| 203 - 212 |
Heteroepitaxial technologies on Si for high-efficiency solar cells
Umeno M, Soga T, Baskar K, Jimbo T |
| 213 - 219 |
The application of quantum well solar cells to thermophotovoltaics
Griffin P, Ballard I, Barnham K, Nelson J, Zachariou A, Epler J, Hill G, Button C, Pate M |
| 221 - 227 |
Optimal growth procedure of GaInP/GaAs heterostructure for high-efficiency solar cells
Kitatani T, Yazawa Y, Watahiki S, Tamura K, Minemura J, Warabisako T |
| 229 - 235 |
GaInP single-junction and GaInP/GaAs two-junction thin-film solar cell structures by epitaxial lift-off
Yazawa Y, Tamura K, Watahiki S, Kitatani T, Minemura J, Warabisako T |
| 237 - 242 |
Analysis of impurity diffusion from tunnel diodes and optimization for operation in tandem cells
Kojima N, Okamoto M, Taylor SJ, Yang MJ, Takamoto T, Yamaguchi M, Takahashi K, Unno T |
| 243 - 249 |
Optimizing gallium arsenide multiple quantum wells as high-performance photovoltaic devices
Thilagam A, Singh J, Stulik P |
| 251 - 257 |
Numerical prediction of InGaAs/GaAs MQW solar cell characteristics under concentrated sunlight
Ohtsuka H, Kitatani T, Yazawa Y, Warabisako T |
| 259 - 264 |
Material and structural parameter dependencies of photon recycling effects in conventional n(+)-p InP solar cell
Yamamoto A, Kurizuka M, Murshid MM, Ohkubo M, Hashimoto A |
| 265 - 272 |
Study on GaAs/GaAlAs MQW structure for photovoltaic applications
Manmontri U, Sopitpan S, Cheewatas P, Thainoi S, Rattanathammapan S, Panyakeow S |
| 273 - 280 |
Improvement of life time of minority carriers in GaAs epi-layer grown on Ge substrate
Takahashi K, Yamada S, Nakazono R, Minagawa Y, Matsuda T, Unno T, Kuma S |
| 281 - 288 |
Thermal stability of GaAs tunnel junctions using carbon as a p-type dopant grown by metal-organic vapor phase epitaxy
Gotoh S, Ueda T, Kakinuma H, Akiyama M |
| 289 - 303 |
High-efficiency silicon space solar cells
Suzuki A |
| 305 - 313 |
Radiation response of InP/Si and InGaP/GaAs space solar cells
Walters RJ, Cotal HL, Messenger SR, Burke EA, Wojtczuk SJ, Serreze HB, Sharps PR, Timmons ML, Iles P, Yeh YCM |
| 315 - 329 |
Flight data from solar cell monitor on Engineering Test Satellite-VI and ground test data
Kawasaki O, Hisamatsu T, Matsuda S |
| 331 - 338 |
Radiation degradation of large fluence irradiated space silicon solar cells
Hisamatsu T, Kawasaki O, Matsuda S, Nakao T, Wakow Y |
| 339 - 344 |
Mechanism for the anomalous degradation of Si solar cells induced by high-energy proton irradiation
Imaizumi M, Yamaguchi M, Taylor SJ, Matsuda S, Kawasaki O, Hisamatsu T |
