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Volumn 4, Issue 3, 2010, Pages 1385-1392

Connecting scanning tunneling spectroscopy to device performance for polymer:fullerene organic solar cells

Author keywords

Device modeling; Morphology; Organic solar cells; Scanning tunneling microscopy

Indexed keywords

BULK HETEROJUNCTION; CHARACTERISTIC SIZE; DEVICE MODELING; DEVICE PERFORMANCE; DRIFT-DIFFUSION MODEL; FILM COMPOSITION; FIRST ORDER; FULLERENE CLUSTERS; MATRIX; MDMO-PPV; MIXED POLYMERS; NM RESOLUTION; ORGANIC SOLAR CELL; ORGANIC SOLAR CELLS; PERFORMANCE INDICATORS; PHOTOVOLTAIC PERFORMANCE; QUANTITATIVE CORRELATION; SCANNING TUNNELING MICROSCOPY AND SPECTROSCOPY; SCANNING TUNNELING SPECTROSCOPY; SHELL LAYERS;

EID: 77950110788     PISSN: 19360851     EISSN: 1936086X     Source Type: Journal    
DOI: 10.1021/nn100039r     Document Type: Article
Times cited : (20)

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    • note
    • 2D the "real" 3D current from the cluster and the calculated current density in the 2D model, respectively. S is a factor of order unity that accounts for the uncertainty in the illumination intensity in the in situ STS experiments and for tip geometry and is kept constant for all samples.
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    • 2).
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    • The absence of a significant tunneling gap at positive set point can, apart from the measured topographies, be concluded from the shape of the I-V curves, which do not bear any signs characteristic of tunneling.


* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.