Materials Map

Discover the materials research landscape. Find experts, partners, networks.

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The Materials Map is an open tool for improving networking and interdisciplinary exchange within materials research. It enables cross-database search for cooperation and network partners and discovering of the research landscape.

The dashboard provides detailed information about the selected scientist, e.g. publications. The dashboard can be filtered and shows the relationship to co-authors in different diagrams. In addition, a link is provided to find contact information.

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Materials Map under construction

The Materials Map is still under development. In its current state, it is only based on one single data source and, thus, incomplete and contains duplicates. We are working on incorporating new open data sources like ORCID to improve the quality and the timeliness of our data. We will update Materials Map as soon as possible and kindly ask for your patience.

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Northumbria University

in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (6/6 displayed)

  • 2023A structural, optical and electrical comparison between physical vapour deposition and slot-die deposition of Al:ZnO (AZO)citations
  • 2022Ex-situ Ge-doping of CZTS Nanocrystals and CZTSSe Solar Absorber Films8citations
  • 2022Ex situ Ge-doping of CZTS nanocrystals and CZTSSe solar absorber films.8citations
  • 2022Recovery mechanisms in aged kesterite solar cells11citations
  • 2020Innovative fabrication of low-cost kesterite solar cells for distributed energy applicationscitations
  • 2019Solution processing route to Na incorporation in CZTSSe nanoparticle ink solar cells on foil substrate14citations

Places of action

Chart of shared publication
Matheson, Ewan D.
1 / 1 shared
Zoppi, Guillaume
6 / 36 shared
Qu, Yongtao
6 / 11 shared
Barrioz, Vincent
6 / 26 shared
Beattie, Neil
5 / 18 shared
Naylor, Matthew
2 / 2 shared
Sheppard, Alice
2 / 3 shared
Laverock, Jude
2 / 13 shared
Ford, Bethan
4 / 4 shared
Campbell, Stephen
4 / 9 shared
Fox, Neil A.
2 / 14 shared
Jones, Michael
2 / 5 shared
Tiwari, Devendra
2 / 29 shared
Maiello, Pietro
3 / 5 shared
Fermin, David J.
2 / 14 shared
Jones, Michael D. K.
1 / 1 shared
Beattie, Neil S.
1 / 1 shared
Naylor, Matthew C.
1 / 2 shared
Duchamp, Martial
2 / 14 shared
Nguyen, Linh Lan
1 / 1 shared
Mirsaidov, Utkur
1 / 2 shared
Campbell, Stephan
1 / 1 shared
Garrec, Mathieu Le
1 / 1 shared
Chart of publication period
2023
2022
2020
2019

Co-Authors (by relevance)

  • Matheson, Ewan D.
  • Zoppi, Guillaume
  • Qu, Yongtao
  • Barrioz, Vincent
  • Beattie, Neil
  • Naylor, Matthew
  • Sheppard, Alice
  • Laverock, Jude
  • Ford, Bethan
  • Campbell, Stephen
  • Fox, Neil A.
  • Jones, Michael
  • Tiwari, Devendra
  • Maiello, Pietro
  • Fermin, David J.
  • Jones, Michael D. K.
  • Beattie, Neil S.
  • Naylor, Matthew C.
  • Duchamp, Martial
  • Nguyen, Linh Lan
  • Mirsaidov, Utkur
  • Campbell, Stephan
  • Garrec, Mathieu Le
OrganizationsLocationPeople

document

Innovative fabrication of low-cost kesterite solar cells for distributed energy applications

  • Zoppi, Guillaume
  • Mirsaidov, Utkur
  • Duchamp, Martial
  • Qu, Yongtao
  • Xu, Xinya
  • Barrioz, Vincent
  • Beattie, Neil
  • Campbell, Stephen
Abstract

<p>We present the results of three novel approaches to the fabrication of kesterite solar cells from scalable, Cu2ZnSnS4 (CZTS) nanoparticle inks. Firstly, CZTS nanoparticles are annealed in a Se-rich atmosphere inside a transmission electron microscope (TEM). This allows observation of the thin film PV absorber formation in real-time and provides the new insight that chalcogen atom exchange and grain growth occur in different temperature regimes. Secondly, we demonstrate an approach to alkali doping Cu2ZnSn(S,Se)4 PV absorbers on flexible Mo-foil substrates that is compatible with high volume manufacturing. Adding NaF directly to the CZTS nanoparticle ink promotes grain growth and improves the device efficiency to 4.4%. Lastly, In2S3/CdS dual buffer layers are investigate to reduce the usage of Cd and result in device efficiency of 7.8% on a glass substrate.</p>

Topics
  • nanoparticle
  • impedance spectroscopy
  • grain
  • thin film
  • glass
  • glass
  • transmission electron microscopy
  • grain growth