51 |
Porous silicon carbide flakes derived from waste silicon wafer for electrochemical supercapacitor Kim M, Oh I, Kim J Chemical Engineering Journal, 289, 170, 2016 |
52 |
태양광용 웨이퍼 실리콘 폐슬러지로부터 절삭유의 재생 엄명헌, 이종집, 하범용 Clean Technology, 22(4), 274, 2016 |
53 |
Analysis of aluminum back surface field at different wafer specifications in crystalline silicon solar cells Park S, Park H, Kang Y, Lee HS, Kim D Current Applied Physics, 16(9), 1062, 2016 |
54 |
Fabrication of highly sensitive and selective H-2 gas sensor based on SnO2 thin film sensitized with microsized Pd islands Toan NV, Chien NV, Duy NV, Hong HS, Nguyen H, Hoa ND, Hieu NV Journal of Hazardous Materials, 301, 433, 2016 |
55 |
Hierarchical micro & mesoporous silicon carbide flakes for high-performance electrochemical capacitive energy storage Kim M, Oh I, Kim J Journal of Power Sources, 307, 715, 2016 |
56 |
Artificial solid electrolyte interphase with in-situ formed porosity for enhancing lithiation of silicon wafer Lin J, Guo JL, Liu C, Guo H Journal of Power Sources, 336, 401, 2016 |
57 |
Cu-contamination of single crystalline silicon wafers with thickness of 100 mu m during multi-wire sawing process Choi S, Jong B, Kim J, Song H, Han M Solar Energy, 125, 198, 2016 |
58 |
Two-dimensional current flow in stringed PV cells and its influence on the cell-to-module resistive losses Guo SY, Singh JP, Peters M, Aberle AG, Wong J Solar Energy, 130, 224, 2016 |
59 |
Grouping by bulk resistivity of production-line mono-crystalline silicon wafers and its influence on the manufacturing of solar cells modules Lopez-Escalante MC, Martin F, Ramos-Barrado J Solar Energy, 131, 61, 2016 |
60 |
Series resistance contribution of majority carriers in CELLO impedance analysis: Influence of wafer thickness variation Wagner JM, Schutt A, Carstensen J, Foll H Solar Energy Materials and Solar Cells, 146, 129, 2016 |