2003
DOI: 10.1016/s0927-0248(03)00104-1
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Design of a block copolymer solar cell

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Cited by 102 publications
(83 citation statements)
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“…The parameters of molecular design and 3-dimensional effects on exciton-collection and charge percolation to the electrodes have been extensively discussed by Sun 167 in terms of the still low efficiencies for such devices with respect to the BHJ-based devices being fabricated. While some of these effects could be blamed on mismatches in bands, the essential differences arose from the researchers being obliged to concentrate on ''simply'' demonstrating that block copolymers could work, rather than choosing materials that might optimize their operation.…”
Section: As Single and Multicomponent Layersmentioning
confidence: 99%
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“…The parameters of molecular design and 3-dimensional effects on exciton-collection and charge percolation to the electrodes have been extensively discussed by Sun 167 in terms of the still low efficiencies for such devices with respect to the BHJ-based devices being fabricated. While some of these effects could be blamed on mismatches in bands, the essential differences arose from the researchers being obliged to concentrate on ''simply'' demonstrating that block copolymers could work, rather than choosing materials that might optimize their operation.…”
Section: As Single and Multicomponent Layersmentioning
confidence: 99%
“…Sun's work, 167 gave an excellent resume of the importance of combining polymers with band-gaps of sizes appropriate to solar radiation, the options that the various lamellae, hexagonal and gyroid structures made available through the use of block copolymers, and the importance of the linking group which covalently joined to the two blocks together. This is, in effect, the first paper that laid out a full discussion of the many diverse parameters that must be considered when using block copolymers in OPVs.…”
Section: As Single and Multicomponent Layersmentioning
confidence: 99%
“…Sun has suggested the use of a flexible non-conjugated bridge unit in order to overcome this problem. 31 However, our emphasis here is on the usefulness of bicontinuous structures in general (of which the three examined here are merely examples), due to the recent development in interest in them, and should a means of creating them be developed in the near future. All three share the essential traits of island-free continuous charge transport pathways with a high interfacial area, which should provide a clear performance improvement on existing disordered blend structures.…”
Section: Introductionmentioning
confidence: 99%
“…More recently, new block copolymers have surfaced bearing mesogenic units or rigid blocks, which confer to these systems a liquid crystalline behaviour [1][2][3][4]. Not only these systems are interesting from a fundamental and theoretical point of view, but they have also a high value and potential in applications such as optoelectronics, photovoltaics [5][6][7][8][9][10][11], bioapplications [12], sensoring, etc. The mechanisms leading to equilibrium microseparated phases in flexible coilcoil diblock copolymers, which can be either spherical, hexagonal, bicontinuous gyroid or lamellar, are well understood [13][14][15] and the equilibrium microseparated phases can be explained, in principle, by using only two independent parameters: the volume ratio of each block and the segregation parameter expressed as the Flory-Huggins interaction parameter times the degree of polymerization a e-mail: raffaele.mezzenga@unifr.ch (χN ).…”
Section: Introductionmentioning
confidence: 99%