The distance that excitons can travel is a key parameter for organic photovoltaic materials. In the August issue of Science Advances, Sneyd and colleagues report a breakthrough in increasing exciton diffusion length to 300 nm by using highly ordered nanofibers. This approach can enable simpler and more stable solar cells.PostprintPeer reviewe
Organic photovoltaic (OPV) cells have recently emerged in the last decade as a viable alternative to...
We investigated singlet exciton diffusion in three ITIC derivatives used as electron acceptors in or...
Modest exciton diffusion lengths dictate the need for nanostructured bulk heterojunctions in organic...
The distance that excitons can travel is a key parameter for organic photovoltaic materials. In the ...
Authors acknowledge support from the European Research Council (grant 321305) And are also grateful ...
Organic semiconductors can potentially revolutionize solar cell technology by offering very thin, li...
Funding: We acknowledge support from the European Commission (European Research Council grant 321305...
We studied crystallinity and exciton harvesting in bulk heterojunctions of the semiconducting polyme...
Funding: European Research Council (grant 321305). IDWS acknowledges a Royal Society Wolfson Researc...
Singlet exciton diffusion was studied in the efficient organic photovoltaic electron donor material ...
Efficient energy transport is desirable in organic semiconductor (OSC) devices. However, photogenera...
We thank the European Research Council (ERC) for financial support (EXCITON grant 321305). Data supp...
The short exciton diffusion length associated with most classical organic semiconductors used in org...
The authors thank the European Research Council for financial support (EXCITON Grant 321305).We stud...
Funding: European Research Council (grant 321305); UK EPSRC for equipment grant (EP/L017008/1) and (...
Organic photovoltaic (OPV) cells have recently emerged in the last decade as a viable alternative to...
We investigated singlet exciton diffusion in three ITIC derivatives used as electron acceptors in or...
Modest exciton diffusion lengths dictate the need for nanostructured bulk heterojunctions in organic...
The distance that excitons can travel is a key parameter for organic photovoltaic materials. In the ...
Authors acknowledge support from the European Research Council (grant 321305) And are also grateful ...
Organic semiconductors can potentially revolutionize solar cell technology by offering very thin, li...
Funding: We acknowledge support from the European Commission (European Research Council grant 321305...
We studied crystallinity and exciton harvesting in bulk heterojunctions of the semiconducting polyme...
Funding: European Research Council (grant 321305). IDWS acknowledges a Royal Society Wolfson Researc...
Singlet exciton diffusion was studied in the efficient organic photovoltaic electron donor material ...
Efficient energy transport is desirable in organic semiconductor (OSC) devices. However, photogenera...
We thank the European Research Council (ERC) for financial support (EXCITON grant 321305). Data supp...
The short exciton diffusion length associated with most classical organic semiconductors used in org...
The authors thank the European Research Council for financial support (EXCITON Grant 321305).We stud...
Funding: European Research Council (grant 321305); UK EPSRC for equipment grant (EP/L017008/1) and (...
Organic photovoltaic (OPV) cells have recently emerged in the last decade as a viable alternative to...
We investigated singlet exciton diffusion in three ITIC derivatives used as electron acceptors in or...
Modest exciton diffusion lengths dictate the need for nanostructured bulk heterojunctions in organic...
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