1 |
Formation of nanotubular structure on low-modulus Ti-7.5Mo alloy surface and its bioactivity evaluation Hsu HC, Hsu SK, Wu SC, Ho WF Thin Solid Films, 669, 329, 2019 |
2 |
N타입 결정질 실리콘 웨이퍼 두께 및 알루미늄 페이스트 도포량 변화에 따른 Bowing 및 Al doped p+ layer 형성 분석 박태준, 변종민, 김영도 Korean Journal of Materials Research, 25(1), 16, 2015 |
3 |
Nanostructured silicon p-layer obtained by radio frequency power profiling process for high-efficiency amorphous silicon solar cell Hou GF, Fang J, Fan QH, Wei CC, Ni J, Zhang XD, Zhao Y Solar Energy Materials and Solar Cells, 134, 395, 2015 |
4 |
Oxygen modified diamond-like carbon as window layer for amorphous silicon solar cells Dwivedi N, Kumar S, Singh S, Malik HK Solar Energy, 86(1), 220, 2012 |
5 |
Anti-reflective microcrystalline silicon oxide p-layer for thin-film silicon solar cells on ZnO Schwanitz K, Klein S, Stolley T, Rohde M, Severin D, Trassl R Solar Energy Materials and Solar Cells, 105, 187, 2012 |
6 |
Analytical models for the electric field distributions and breakdown voltage of Triple RESURF SOI LDMOS Hu XR, Zhang B, Luo XR, Li ZJ Solid-State Electronics, 69, 89, 2012 |
7 |
Microstructural and electrical properties of different-sized aluminum-alloyed contacts and their layer system on silicon surfaces Krause J, Woehl R, Rauer M, Schmiga C, Wilde J, Biro D Solar Energy Materials and Solar Cells, 95(8), 2151, 2011 |
8 |
Photoluminescence as a tool for investigations of the junction region in Cu(In,Ga)Se-2-based solar cells Pawlowski M, Zabierowski P, Bacewicz R, Marko H, Barreau N Thin Solid Films, 519(21), 7328, 2011 |
9 |
Microcrystalline B-doped window layers prepared near amorphous to microcrystalline transition by HWCVD and its application in amorphous silicon solar cells Kumar P, Kupich M, Grunsky D, Schroeder B Thin Solid Films, 501(1-2), 260, 2006 |
10 |
Highly stabilized protocrystalline silicon multilayer solar cell using a silicon-carbide double p-layer structure Myong SY, Kwon SW, Lim KS, Konagai M Solar Energy Materials and Solar Cells, 85(1), 133, 2005 |