Institut for Forretningsudvikling og Teknologi

"Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells

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Standard

"Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells. / Jayawardena, K.D.G. Imalka; Rozanski, Lynn J.; Mills, Christopher A.; Beliatis, Michail; Nismy, N. Aamina; Silva, S. Ravi P.

I: Nanoscale, Bind 5, 2013, s. 8411-8427.

Publikation: Bidrag til tidsskrift/Konferencebidrag i tidsskrift /Bidrag til avisTidsskriftartikelForskningpeer review

Harvard

Jayawardena, KDGI, Rozanski, LJ, Mills, CA, Beliatis, M, Nismy, NA & Silva, SRP 2013, '"Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells', Nanoscale, bind 5, s. 8411-8427. https://doi.org/10.1039/c3nr02733c

APA

Jayawardena, K. D. G. I., Rozanski, L. J., Mills, C. A., Beliatis, M., Nismy, N. A., & Silva, S. R. P. (2013). "Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells. Nanoscale, 5, 8411-8427. https://doi.org/10.1039/c3nr02733c

CBE

Jayawardena KDGI, Rozanski LJ, Mills CA, Beliatis M, Nismy NA, Silva SRP. 2013. "Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells. Nanoscale. 5:8411-8427. https://doi.org/10.1039/c3nr02733c

MLA

Vancouver

Jayawardena KDGI, Rozanski LJ, Mills CA, Beliatis M, Nismy NA, Silva SRP. "Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells. Nanoscale. 2013;5:8411-8427. https://doi.org/10.1039/c3nr02733c

Author

Jayawardena, K.D.G. Imalka ; Rozanski, Lynn J. ; Mills, Christopher A. ; Beliatis, Michail ; Nismy, N. Aamina ; Silva, S. Ravi P. / "Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells. I: Nanoscale. 2013 ; Bind 5. s. 8411-8427.

Bibtex

@article{617ed000ba554164a079bccaf3c6e8af,
title = "{"}Inorganics-in-Organics{"}: Recent Developments and Outlook for 4G Polymer Solar Cells",
abstract = "Recent developments in solution processable single junction polymer solar cells have led to a significant improvement in power conversion efficiencies from 5% to beyond 9%. While much of the initial efficiency improvements were driven through judicious design of donor polymers, it is the engineering of device architectures through the incorporation of inorganic nanostructures and better processing that has continued the efficiency gains. Inorganic nano-components such as carbon nanotubes, graphene and its derivatives, metal nanoparticles and metal oxides have played a central role in improving device performance and longevity beyond those achieved by conventional 3G polymer solar cells. The present work aims to summarise the diverse roles played by the nanosystems and features in state of the art next generation (4G) polymer solar cells. The challenges associated with the engineering of such devices for future deployment are also discussed.",
author = "Jayawardena, {K.D.G. Imalka} and Rozanski, {Lynn J.} and Mills, {Christopher A.} and Michail Beliatis and Nismy, {N. Aamina} and Silva, {S. Ravi P.}",
note = "Open Access Article (CC) BY-NC",
year = "2013",
doi = "10.1039/c3nr02733c",
language = "English",
volume = "5",
pages = "8411--8427",
journal = "Nanoscale",
issn = "2040-3364",
publisher = "ROYAL SOC CHEMISTRY",

}

RIS

TY - JOUR

T1 - "Inorganics-in-Organics": Recent Developments and Outlook for 4G Polymer Solar Cells

AU - Jayawardena, K.D.G. Imalka

AU - Rozanski, Lynn J.

AU - Mills, Christopher A.

AU - Beliatis, Michail

AU - Nismy, N. Aamina

AU - Silva, S. Ravi P.

N1 - Open Access Article (CC) BY-NC

PY - 2013

Y1 - 2013

N2 - Recent developments in solution processable single junction polymer solar cells have led to a significant improvement in power conversion efficiencies from 5% to beyond 9%. While much of the initial efficiency improvements were driven through judicious design of donor polymers, it is the engineering of device architectures through the incorporation of inorganic nanostructures and better processing that has continued the efficiency gains. Inorganic nano-components such as carbon nanotubes, graphene and its derivatives, metal nanoparticles and metal oxides have played a central role in improving device performance and longevity beyond those achieved by conventional 3G polymer solar cells. The present work aims to summarise the diverse roles played by the nanosystems and features in state of the art next generation (4G) polymer solar cells. The challenges associated with the engineering of such devices for future deployment are also discussed.

AB - Recent developments in solution processable single junction polymer solar cells have led to a significant improvement in power conversion efficiencies from 5% to beyond 9%. While much of the initial efficiency improvements were driven through judicious design of donor polymers, it is the engineering of device architectures through the incorporation of inorganic nanostructures and better processing that has continued the efficiency gains. Inorganic nano-components such as carbon nanotubes, graphene and its derivatives, metal nanoparticles and metal oxides have played a central role in improving device performance and longevity beyond those achieved by conventional 3G polymer solar cells. The present work aims to summarise the diverse roles played by the nanosystems and features in state of the art next generation (4G) polymer solar cells. The challenges associated with the engineering of such devices for future deployment are also discussed.

U2 - 10.1039/c3nr02733c

DO - 10.1039/c3nr02733c

M3 - Journal article

C2 - 23900455

VL - 5

SP - 8411

EP - 8427

JO - Nanoscale

JF - Nanoscale

SN - 2040-3364

ER -