Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains

Self-complementary hydrogen-bonding domains were incorporated as the electron deficient unit in “push–pull”, p-type small molecules for organic photovoltaic active layers. Such compounds were found to enhance the fill factor, compared with similar non-self-organized compounds reported in the literat...
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Gespeichert in:

Autor*in:	Rohan J. Kumar [verfasserIn] Jegadesan Subbiah [verfasserIn] Andrew B. Holmes [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2013

Schlagwörter:	hydrogen-bonding organic photovoltaics self-assembly

Übergeordnetes Werk:	In: Beilstein Journal of Organic Chemistry - Beilstein-Institut, 2005, 9(2013), 1, Seite 1102-1110
Übergeordnetes Werk:	volume:9 ; year:2013 ; number:1 ; pages:1102-1110

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.3762/bjoc.9.122

Katalog-ID:	DOAJ049609173

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callnumber-first	Q - Science
author	Rohan J. Kumar
spellingShingle	Rohan J. Kumar misc QD241-441 misc hydrogen-bonding misc organic photovoltaics misc self-assembly misc Science misc Q misc Organic chemistry Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
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topic_title	QD241-441 Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains hydrogen-bonding organic photovoltaics self-assembly
topic	misc QD241-441 misc hydrogen-bonding misc organic photovoltaics misc self-assembly misc Science misc Q misc Organic chemistry
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title	Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
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title_full	Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
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title_sort	enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
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title_auth	Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
abstract	Self-complementary hydrogen-bonding domains were incorporated as the electron deficient unit in “push–pull”, p-type small molecules for organic photovoltaic active layers. Such compounds were found to enhance the fill factor, compared with similar non-self-organized compounds reported in the literature, leading to higher device efficiencies. Evidence is presented that the ability of these molecules to form one-dimensional hydrogen-bonded chains and subsequently exhibit hierarchical self-assembly into nanostructured domains can be correlated with improved device efficiency.
abstractGer	Self-complementary hydrogen-bonding domains were incorporated as the electron deficient unit in “push–pull”, p-type small molecules for organic photovoltaic active layers. Such compounds were found to enhance the fill factor, compared with similar non-self-organized compounds reported in the literature, leading to higher device efficiencies. Evidence is presented that the ability of these molecules to form one-dimensional hydrogen-bonded chains and subsequently exhibit hierarchical self-assembly into nanostructured domains can be correlated with improved device efficiency.
abstract_unstemmed	Self-complementary hydrogen-bonding domains were incorporated as the electron deficient unit in “push–pull”, p-type small molecules for organic photovoltaic active layers. Such compounds were found to enhance the fill factor, compared with similar non-self-organized compounds reported in the literature, leading to higher device efficiencies. Evidence is presented that the ability of these molecules to form one-dimensional hydrogen-bonded chains and subsequently exhibit hierarchical self-assembly into nanostructured domains can be correlated with improved device efficiency.
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title_short	Enhancement of efficiency in organic photovoltaic devices containing self-complementary hydrogen-bonding domains
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