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Output details

13 - Electrical and Electronic Engineering, Metallurgy and Materials

Imperial College London : B - Metallurgy and Materials

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Output 48 of 140 in the submission

Article title

Fullerene crystallisation as a key driver of charge separation in polymer/fullerene bulk heterojunction solar cells

Type

D - Journal article

DOI

10.1039/c1sc00674f

Title of journal

Chemical Science

Article number

Volume number

Issue number

First page of article

485

ISSN of journal

2041-6520

Year of publication

2012

URL

Number of additional authors

Additional information

The functional model developed here is critical for the design of acceptor materials for organic solar cells, assists in establishing more reliable processing protocols and provides fundamental understanding of such devices. The concept is now widely used by leading groups at National Renewable Energy Laboratory(NREL), Stanford, Georgia Tech, UCSB. Various invitations for Stingelin to present at international conferences have resulted including at the The Kavli Royal Society International Centre and three Keynote lectures in 2012 (two in the USA, one in Germany). The paper was ranked amongst the top 10 most-cited papers of 2012/13 in the area by Science Watch.

Interdisciplinary

Cross-referral requested

Research group

None

Proposed double-weighted

Double-weighted statement

Reserve for a double-weighted output

Non-English

English abstract