SCOPUS 정보 검색 플랫폼

Volumn 9, Issue 3, 2016, Pages 1083-1094

Industrially scalable and cost-effective Mn2+ doped ZnxCd1-xS/ZnS nanocrystals with 70% photoluminescence quantum yield, as efficient down-shifting materials in photovoltaics

(11) Levchuk, I a,b Wurth C c Krause, F a Osvet, A a Batentschuk, M a Resch Genger, U c Kolbeck, C a Herre, P a Steinruck H P a Peukert, W a Brabec, C J a,b,d

a UNIVERSITY OF ERLANGEN NUREMBERG (Germany)

b Energy Campus Nürnberg ^* (Germany)

c BAM FEDERAL INSTITUTE FOR MATERIALS RESEARCH AND TESTING (Germany)

d BAVARIAN CENTER FOR APPLIED ENERGY RESEARCH ZAE BAYERN (Germany)

Author keywords

[No Author keywords available]

Indexed keywords

COST EFFECTIVENESS; COST REDUCTION; COSTS; EFFICIENCY; MANGANESE; MONOCRYSTALLINE SILICON; NANOCRYSTALS; NANOSTRUCTURED MATERIALS; PHOTOLUMINESCENCE; PHOTOVOLTAIC CELLS; QUANTUM YIELD; SEMICONDUCTING SILICON; SEMICONDUCTOR MATERIALS; SILICON; SILICON SOLAR CELLS; SOLAR CELLS; ULTRAVIOLET SPECTROSCOPY; ZINC; ZINC SULFIDE;

CORE-SHELL NANOCRYSTALS; EXTERNAL QUANTUM EFFICIENCY; HIGH REPRODUCIBILITY; OPTIMIZED REACTION CONDITIONS; OPTOELECTRONIC APPLICATIONS; PHOTOLUMINESCENCE QUANTUM YIELDS; POWER CONVERSION EFFICIENCIES; ULTRAVIOLET SPECTRAL REGIONS;

QUANTUM EFFICIENCY;

NANOTECHNOLOGY; PHOTOVOLTAIC SYSTEM; POWER; POWER GENERATION; QUANTUM MECHANICS; SILICON; SOLAR POWER;

EID: 84960807626 PISSN: 17545692 EISSN: 17545706 Source Type: Journal
DOI: 10.1039/c5ee03165f Document Type: Article

Times cited : (66)

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