2006
DOI: 10.1002/anie.200503958
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Charge Separation at Self‐Assembled Nanostructured Bulk Interface in Block Copolymers

Abstract: Proper percolation of charges in solar cells is possible with the self‐assembled nanostructure of a block‐copolymer film (see the TEM cross section of a solar cell). A photovoltaic device made from such a block copolymer exhibits a ten‐times higher short circuit current and a considerably larger photovoltage than its polymer‐blend analogue.

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Cited by 211 publications
(197 citation statements)
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“…63 Once more, this is a primary consideration when designing block copolymers for photovoltaic devices. 123 It is important to mention the work of Lindner et al 152,177,178 where, for the first time, high molecular weight coil-coil block copolymers PvTPA-b-PPerAcr shown in Figure 7(a) were used to prepare devices that clearly demonstrated photovoltaic capabilities greater than blends of the same component homopolymers (Fig. 15).…”
Section: Reviewmentioning
confidence: 99%
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“…63 Once more, this is a primary consideration when designing block copolymers for photovoltaic devices. 123 It is important to mention the work of Lindner et al 152,177,178 where, for the first time, high molecular weight coil-coil block copolymers PvTPA-b-PPerAcr shown in Figure 7(a) were used to prepare devices that clearly demonstrated photovoltaic capabilities greater than blends of the same component homopolymers (Fig. 15).…”
Section: Reviewmentioning
confidence: 99%
“…Backfilling can be carried out using either dip coating or electrochemical deposition. Some of the more complex and interconnected block copolymer structures, such as the gyroid phase, occupy only a very small region of the phase diagram and complications due to the Reprinted from Linder et al 178 Angewandte Chemie International Edition (2006) with permission from Wiley.…”
Section: Templatingmentioning
confidence: 99%
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“…55 Attempts to exploit donor-acceptor block copolymers for photovoltaic applications have been limited, both in number and success. [56][57][58][59][60] Another way to make the blend morphology less sensitive to the film forming conditions was introduced by Kietzke and co-workers. 61 The method involves Figure 4.…”
Section: Factors Influencing the Morphology Of The Photoactive Layer mentioning
confidence: 99%
“…Based on this concept, new more sophisticated device architectures have been devised in the past two decades, such as multi-layers 7 and blends 8,9 composed of different types of small molecules, bilayers 10 and blends 11,12 made from different polymer species, bilayers 13 and blends [14][15][16][17] composed of polymers and small molecules, as well as block copolymers. 18 However, despite recent advances, the power conversion efficiency of organic solar cells is still rather small compared to inorganic ones with maximum values ranging from 7% to 8%. 19 The relatively low power conversion efficiency of OPV cells can mainly be attributed to loss phenomena of the elementary particles involved in the photovoltaic process, such as photon loss, exciton loss, and charge carrier loss.…”
Section: Introductionmentioning
confidence: 99%