SOLR
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1798270977972371457 |
author |
Liu, Feng |
author2 |
Zhang, Lei, Zhang, Yue, Mannsfeld, Stefan C. B., Russell, Thomas P., Briseno, Alejandro L. |
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l z lz, y z yz, s c b m scb scbm, t p r tp tpr, a l b al alb |
author_facet |
Liu, Feng, Zhang, Lei, Zhang, Yue, Mannsfeld, Stefan C. B., Russell, Thomas P., Briseno, Alejandro L. |
author_role |
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author_sort |
Liu, Feng |
author_variant |
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Library A |
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sid-22-col-qucosa |
container_reference |
2,2014,44 |
contents |
We report the morphological characterization of triisopropylsilylethynyl-dibenzochrysene (TIPS-DBC:PCBM) blends, a bulk heterojunction (BHJ) solar cell system based on a highly crystalline small molecule donor. We found that processing the blends from a volatile solvent such as chloroform is beneficial in controlling the crystal size and phase separation of the donor–acceptor phases. When a less-volatile solvent such as chlorobenzene is used, large crystalline domains formed, exceeding the length scale suitable for BHJ solar cells. When the BHJ films are thermally annealed, enhanced domain purity is observed for the chloroform processed thin films, which led to an increased short circuit current in the devices. |
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540 |
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500 - Natural sciences and mathematics |
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540 - Chemistry and allied sciences |
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540 |
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540 |
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3540 |
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540 - Chemistry and allied sciences |
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Online, Free |
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Chemie und Pharmazie |
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science-chemistry |
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Article, E-Article |
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Article, E-Article |
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Journal |
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Article, E-Article |
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ElectronicArticle |
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Article, E-Article |
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Article, E-Article |
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E-Article |
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not assigned |
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not assigned |
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2014 |
id |
22-14-qucosa2-362605 |
illustrated |
Not Illustrated |
imprint |
London, Royal Society of Chemistry, 2014 |
imprint_str_mv |
Online-Ausg.: 2020 |
institution |
DE-105, DE-Gla1, DE-Brt1, DE-D161, DE-540, DE-Pl11, DE-Rs1, DE-Bn3, DE-Zi4, DE-Zwi2, DE-D117, DE-Mh31, DE-D275, DE-Ch1, DE-15, DE-D13, DE-L242, DE-L229, DE-L328 |
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English |
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2024-05-06T03:07:25.061Z |
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liu2014interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends |
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Qucosa |
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2014 |
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2014 |
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London |
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Royal Society of Chemistry |
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14-qucosa2-362605 |
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22 |
spelling |
Liu, Feng, Interpenetrating morphology based on highly crystalline small molecule and PCBM blends, London Royal Society of Chemistry 2014, Online-Ausg. 2020 Online-Ressource (Text) Technische Universität Dresden, We report the morphological characterization of triisopropylsilylethynyl-dibenzochrysene (TIPS-DBC:PCBM) blends, a bulk heterojunction (BHJ) solar cell system based on a highly crystalline small molecule donor. We found that processing the blends from a volatile solvent such as chloroform is beneficial in controlling the crystal size and phase separation of the donor–acceptor phases. When a less-volatile solvent such as chlorobenzene is used, large crystalline domains formed, exceeding the length scale suitable for BHJ solar cells. When the BHJ films are thermally annealed, enhanced domain purity is observed for the chloroform processed thin films, which led to an increased short circuit current in the devices., Solar Cell System, Highly Crystalline Small Molecule Donor, Solvent Chloroform, Donor-Acceptor Phases, Domain Purity, Solarzellensystem, Hochkristallinen Kleinmoleküldonator, Lösungsmittel Chloroform, Donor-Akzeptor-Phasen, Domänenreinheit, Zhang, Lei, Zhang, Yue, Mannsfeld, Stefan C. B., Russell, Thomas P., Briseno, Alejandro L., 2,2014,44, text/html https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa2-362605 Online-Zugriff |
spellingShingle |
Liu, Feng, Interpenetrating morphology based on highly crystalline small molecule and PCBM blends, We report the morphological characterization of triisopropylsilylethynyl-dibenzochrysene (TIPS-DBC:PCBM) blends, a bulk heterojunction (BHJ) solar cell system based on a highly crystalline small molecule donor. We found that processing the blends from a volatile solvent such as chloroform is beneficial in controlling the crystal size and phase separation of the donor–acceptor phases. When a less-volatile solvent such as chlorobenzene is used, large crystalline domains formed, exceeding the length scale suitable for BHJ solar cells. When the BHJ films are thermally annealed, enhanced domain purity is observed for the chloroform processed thin films, which led to an increased short circuit current in the devices., Solar Cell System, Highly Crystalline Small Molecule Donor, Solvent Chloroform, Donor-Acceptor Phases, Domain Purity, Solarzellensystem, Hochkristallinen Kleinmoleküldonator, Lösungsmittel Chloroform, Donor-Akzeptor-Phasen, Domänenreinheit |
title |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_auth |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_full |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_fullStr |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_full_unstemmed |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_in_hierarchy |
|
title_short |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
title_sort |
interpenetrating morphology based on highly crystalline small molecule and pcbm blends |
title_unstemmed |
Interpenetrating morphology based on highly crystalline small molecule and PCBM blends |
topic |
Solar Cell System, Highly Crystalline Small Molecule Donor, Solvent Chloroform, Donor-Acceptor Phases, Domain Purity, Solarzellensystem, Hochkristallinen Kleinmoleküldonator, Lösungsmittel Chloroform, Donor-Akzeptor-Phasen, Domänenreinheit |
topic_facet |
Solar Cell System, Highly Crystalline Small Molecule Donor, Solvent Chloroform, Donor-Acceptor Phases, Domain Purity, Solarzellensystem, Hochkristallinen Kleinmoleküldonator, Lösungsmittel Chloroform, Donor-Akzeptor-Phasen, Domänenreinheit |
url |
https://nbn-resolving.org/urn:nbn:de:bsz:14-qucosa2-362605 |
urn |
urn:nbn:de:bsz:14-qucosa2-362605 |
work_keys_str_mv |
AT liufeng interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends, AT zhanglei interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends, AT zhangyue interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends, AT mannsfeldstefancb interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends, AT russellthomasp interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends, AT brisenoalejandrol interpenetratingmorphologybasedonhighlycrystallinesmallmoleculeandpcbmblends |