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논문 기본정보
Ag 나노입자와 나노홀 배열구조를 이용한 초박형 단결정 Si 태양전지의 광흡수 증진
논문 개요
| 기관명 | NDSL |
|---|---|
| 저널명 | Current photovoltaic research = 한국태양광발전학회논문지 |
| ISSN | 2288-3274,2508-125x |
| ISBN |
논문저자 및 소속기관 정보
| 저자(한글) | 김수정,조윤애,손아름,김동욱 |
|---|---|
| 저자(영문) | |
| 소속기관 | |
| 소속기관(영문) | |
| 출판인 | |
| 간행물 번호 | |
| 발행연도 | 2016-01-01 |
| 초록 | We investigated the influences of Ag nanoparticle (NP) arrays and surface nanohole (NH) patterns on the optical characteristics of 10- ${ mu}m$ -thick c-Si wafers using finite-difference time-domain (FDTD) simulations. In particular, we comparatively studied the plasmonic effects of both monomer arrays (MA) and heptamer arrays (HA) consisting of identical Ag NPs. HA improved the optical absorption of the c-Si wafers in much wider wavelength range than MA, with the help of hybridized plasmon modes. The light trapping capability of the NH array pattern is superior to that of the Ag plasmonic NPs. We also found that the addition of the Ag HA on the wafers with surface NH patterns further enhanced optical absorption: the expected short-circuit current density was as high as $34.96mA/cm^2$ . |
| 원문URL | http://click.ndsl.kr/servlet/OpenAPIDetailView?keyValue=03553784&target=NART&cn=JAKO201621650895082 |
| 첨부파일 |
추가정보
| 과학기술표준분류 | |
|---|---|
| ICT 기술분류 | |
| DDC 분류 | |
| 주제어 (키워드) | Light trapping,Ultrathin c-Si,Plasmonic nanoparticle,Nanohole |