2018年第79回応用物理学会秋季学術講演会

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13 半導体 » 13.9 化合物太陽電池

[19a-136-1~12] 13.9 化合物太陽電池

2018年9月19日(水) 09:00 〜 12:15 136 (3Fロビー)

田中 久仁彦(長岡技科大)

10:00 〜 10:15

[19a-136-5] Dependence of Electrical Contact between CuGaS2 and Mo Thin Films on Sputtering Conditions

〇(B)Myeongok Kim1、Nazmul Ahsan2、Zacharie Jehl Li Kao2、Hiroya Matsubayashi3、Kalainathan Sivaperuman4、Yoshitaka Okada2,3 (1.Col. Arts and Sci. UTokyo、2.RCAST UTokyo、3.Elec. Eng. UTokyo、4.VIT University)

キーワード:Copper gallium disulfide, RF magnetron sputtering, Metal semiconductor interface

CuGaS2 (CGS) thin film solar cell is in the same chalcopyrite compound family as CIGS solar cell that has reached efficiency of 22.9% by Solar Frontier in 2017. For the wide band gap of 2.48eV, its applications on intermediate band solar cell or tandem solar cell are expected to break the single-junction efficiency limit beyond 30% by absorbing wide spectrum of sunlight by multiple bandgaps. In this research, I studied mainly the electrical transport characteristics between sputtered molybdenum (Mo) metal electrode and CGS absorber layer. It has been found that the electrical transport varies depending on the substrate temperature during deposition and interface meterial.