Susanne Siebentritt
Overview
Explore the profile of Susanne Siebentritt including associated specialties, affiliations and a list of published articles.
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Articles
21
Citations
48
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0
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Recent Articles
1.
Hu Y, Kusch G, Adeleye D, Siebentritt S, Oliver R
J Microsc
. 2025 Feb;
298(1):106-117.
PMID: 39895214
Multi-microscopy offers significant benefits to the understanding of complex materials behaviour by providing complementary information from different properties. However, some characterisations may strongly influence other measurements in the same workflow....
2.
Adeleye D, Sood M, Valluvar Oli A, Torndahl T, Hultqvist A, Vanderhaegen A, et al.
Small
. 2025 Jan;
21(8):e2405221.
PMID: 39780557
Cu(In, Ga)S demonstrates potential as a top cell material for tandem solar cells. However, achieving high efficiencies has been impeded by open-circuit voltage (V) deficits arising from In-rich and Ga-rich...
3.
Hu Y, Kusch G, Adeleye D, Siebentritt S, Oliver R
Nanotechnology
. 2024 Apr;
35(29).
PMID: 38588661
Cathodoluminescence and electron backscatter diffraction have been applied to exactly the same grain boundaries (GBs) in a Cu(In,Ga)Ssolar absorber in order to investigate the influence of microstructure on the radiative...
4.
Andreasen J, Arca E, Bowers J, Bar M, Breternitz J, Dale P, et al.
Faraday Discuss
. 2022 Oct;
239(0):287-316.
PMID: 36250438
No abstract available.
5.
Agbenyeke R, Andreasen J, Benhaddou N, Bowers J, Breternitz J, Bar M, et al.
Faraday Discuss
. 2022 Oct;
239(0):375-404.
PMID: 36250389
No abstract available.
6.
Andreasen J, Breternitz J, Bar M, Dale P, Dimitrievska M, Fermin D, et al.
Faraday Discuss
. 2022 Oct;
239(0):180-201.
PMID: 36226639
No abstract available.
7.
Andreasen J, Bowers J, Breternitz J, Dale P, Dimitrievska M, Fermin D, et al.
Faraday Discuss
. 2022 Oct;
239(0):85-111.
PMID: 36222895
No abstract available.
8.
Siebentritt S, Rau U, Gharabeiki S, Weiss T, Prot A, Wang T, et al.
Faraday Discuss
. 2022 Aug;
239(0):112-129.
PMID: 35929408
Absolute photoluminescence measurements present a tool to predict the quality of photovoltaic absorber materials before finishing the solar cells. Quasi Fermi level splitting predicts the maximal open circuit voltage. However,...
9.
Sood M, Adeleye D, Shukla S, Torndahl T, Hultqvist A, Siebentritt S
Faraday Discuss
. 2022 Jul;
239(0):328-338.
PMID: 35848764
Cu(In,Ga)S holds the potential to become a prime candidate for use as the top cell in tandem solar cells owing to its tunable bandgap from 1.55 eV (CuInS) to 2.50...
10.
Sood M, Bombsch J, Lomuscio A, Shukla S, Hartmann C, Frisch J, et al.
ACS Appl Mater Interfaces
. 2022 Feb;
14(7):9676-9684.
PMID: 35134299
Copper indium disulfide (CuInS) grown under Cu-rich conditions exhibits high optical quality but suffers predominantly from charge carrier interface recombination, resulting in poor solar cell performance. An unfavorable "cliff"-like conduction...