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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1.080 Topics available

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977 Locations available

693.932 PEOPLE
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Kaienburg, Pascal

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University of Oxford

in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (3/3 displayed)

  • 2024From generation to collection – impact of deposition temperature on charge carrier dynamics of high-performance vacuum-processed organic solar cells4citations
  • 2023Understanding the role of non-fullerene acceptor crystallinity in the charge transport properties and performance of organic solar cells11citations
  • 2018Spin-coated planar Sb<sub>2</sub>S<sub>3</sub> hybrid solar cells approaching 5% efficiency29citations

Places of action

Chart of shared publication
Riede, Moritz
2 / 4 shared
Mukherjee, Subhrangsu
1 / 1 shared
Wu, Jiaying
1 / 1 shared
Heger, Julian Eliah
1 / 11 shared
Mackenzie, Roderick C. I.
1 / 6 shared
Pfeiffer, Martin
1 / 1 shared
Müller-Buschbaum, Peter
1 / 471 shared
Ramirez, Ivan
1 / 2 shared
Durrant, James Robert
1 / 1 shared
Dong, Yifan
1 / 2 shared
Ade, Harald
1 / 11 shared
Bittrich, Eva
1 / 7 shared
Hosseini, Seyed Mehrdad
1 / 3 shared
Pacalaj, Richard Adam
1 / 1 shared
Mondelli, Pierluigi
1 / 3 shared
Grandjean, Martine
1 / 2 shared
Horton, Peter N.
1 / 3 shared
Radaelli, Paolo
1 / 1 shared
Reddy, G. N. Manjunatha
1 / 5 shared
Morse, Graham
1 / 2 shared
Nyman, Mathias
1 / 7 shared
Scatena, Rebecca
1 / 7 shared
Solano, Eduardo
1 / 27 shared
Welton, Claire
1 / 9 shared
Coles, Simon J.
1 / 18 shared
Barrena, Esther
1 / 13 shared
Beljonne, David
1 / 44 shared
Silvestri, Francesco
1 / 3 shared
Lemaur, Vincent
1 / 18 shared
Klingebiel, Benjamin
1 / 4 shared
Kirchartz, Thomas
1 / 20 shared
Chart of publication period
2024
2023
2018

Co-Authors (by relevance)

  • Riede, Moritz
  • Mukherjee, Subhrangsu
  • Wu, Jiaying
  • Heger, Julian Eliah
  • Mackenzie, Roderick C. I.
  • Pfeiffer, Martin
  • Müller-Buschbaum, Peter
  • Ramirez, Ivan
  • Durrant, James Robert
  • Dong, Yifan
  • Ade, Harald
  • Bittrich, Eva
  • Hosseini, Seyed Mehrdad
  • Pacalaj, Richard Adam
  • Mondelli, Pierluigi
  • Grandjean, Martine
  • Horton, Peter N.
  • Radaelli, Paolo
  • Reddy, G. N. Manjunatha
  • Morse, Graham
  • Nyman, Mathias
  • Scatena, Rebecca
  • Solano, Eduardo
  • Welton, Claire
  • Coles, Simon J.
  • Barrena, Esther
  • Beljonne, David
  • Silvestri, Francesco
  • Lemaur, Vincent
  • Klingebiel, Benjamin
  • Kirchartz, Thomas
OrganizationsLocationPeople

article

Spin-coated planar Sb<sub>2</sub>S<sub>3</sub> hybrid solar cells approaching 5% efficiency

  • Klingebiel, Benjamin
  • Kaienburg, Pascal
  • Kirchartz, Thomas
Abstract

<jats:p>Antimony sulfide solar cells have demonstrated an efficiency exceeding 7% when assembled in an extremely thin absorber configuration deposited via chemical bath deposition. More recently, less complex, planar geometries were obtained from simple spin-coating approaches, but the device efficiency still lags behind. We compare two processing routes based on different precursors reported in the literature. By studying the film morphology, sub-bandgap absorption and solar cell performance, improved annealing procedures are found and the crystallization temperature is shown to be critical. In order to determine the optimized processing conditions, the role of the polymeric hole transport material is discussed. The efficiency of our best solar cells exceeds previous reports for each processing route, and our champion device displays one of the highest efficiencies reported for planar antimony sulfide solar cells.</jats:p>

Topics
  • Deposition
  • impedance spectroscopy
  • morphology
  • laser emission spectroscopy
  • liquid-assisted grinding
  • annealing
  • crystallization
  • crystallization temperature
  • Antimony