화학공학소재연구정보센터
검색결과 : 8건
No. Article
1 Low-cost plasma immersion ion implantation doping for Interdigitated back passivated contact (IBPC) solar cells
Young DL, Nemeth W, LaSalvia V, Page MR, Theingi S, Aguiar J, Lee BG, Stradins P
Solar Energy Materials and Solar Cells, 158, 68, 2016
2 Amorphous/crystalline silicon heterojunction solar cells with varying i-layer thickness
Page MR, Iwaniczko E, Xu YQ, Roybal L, Hasoon F, Wang Q, Crandall RS
Thin Solid Films, 519(14), 4527, 2011
3 A metallurgical route to produce upgraded silicon and monosilane
Mukashev BN, Abdullin KA, Tamendarov MF, Turmagambetov TS, Beketov BA, Page MR, Kline DM
Solar Energy Materials and Solar Cells, 93(10), 1785, 2009
4 Recent advances in hot-wire CVD R&D at NREL: From 18% silicon heterojunction cells to silicon epitaxy at glass-compatible temperatures
Branz HM, Teplin CW, Young DL, Page MR, Iwaniczko E, Roybal L, Bauer R, Mahan AH, Xu Y, Stradins P, Wang T, Wang Q
Thin Solid Films, 516(5), 743, 2008
5 Effect of emitter deposition temperature on surface passivation in hot-wire chemical vapor deposited silicon heterojunction solar cells
Wang TH, Iwaniczko E, Page MR, Levi DH, Yan Y, Branz HM, Wang Q
Thin Solid Films, 501(1-2), 284, 2006
6 Crystallographic control in thin-layer silicon depositions by atmospheric-pressure iodine vapor transport
Wang TH, Ciszek TF, Page MR
Journal of Crystal Growth, 253(1-4), 183, 2003
7 Development of a hot-wire chemical vapor deposition n-type emitter on p-type crystalline Si-based solar cells
Wang Q, Page MR, Xu XQ, Iwaniczko E, Williams E, Wang TH
Thin Solid Films, 430(1-2), 208, 2003
8 Hydrogen passivation and junction formation on APIVT-deposited thin-layer silicon by hot-wire CVD
Wang TH, Wang Q, Page MR, Bauer RE, Ciszek TF
Thin Solid Films, 430(1-2), 261, 2003