Paul Pistor
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Explore the profile of Paul Pistor including associated specialties, affiliations and a list of published articles.
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10
Citations
36
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Recent Articles
1.
Aranda C, Li W, Martinez-Ferrero E, Pistor P, Oskam G, Palomares E, et al.
J Phys Chem Lett
. 2025 Feb;
16(9):2301-2308.
PMID: 39992169
Self-assembled monolayers (SAMs) are highly promising hole-transport layers for p-i-n perovskite solar cells, increasing photocurrent, reducing hysteresis and boosting photovoltage. However, the SAM's exact role in maintaining those benefits remains...
2.
Anta J, Oskam G, Pistor P
J Chem Phys
. 2024 Apr;
160(15).
PMID: 38624112
Metal halide perovskites have brought about a disruptive shift in the field of third-generation photovoltaics. Their potential as remarkably efficient solar cell absorbers was first demonstrated in the beginning of...
3.
Heidrich R, Heinze K, Berwig S, Ge J, Scheer R, Pistor P
Sci Rep
. 2022 Nov;
12(1):19167.
PMID: 36357470
A variety of different synthesis methods for the fabrication of solar cell absorbers based on the lead halide perovskite methylammonium lead iodide (MAPbI, MAPI) have been successfully developed in the...
4.
Heinze K, Dolynchuk O, Burwig T, Vaghani J, Scheer R, Pistor P
Sci Rep
. 2021 Jul;
11(1):15299.
PMID: 34315927
Vacuum-based co-evaporation promises to bring perovskite solar cells to larger scales, but details of the film formation from the physical vapor phase are still underexplored. In this work, we investigate...
5.
Becerril-Romero I, Sylla D, Placidi M, Sanchez Y, Andrade-Arvizu J, Izquierdo-Roca V, et al.
ACS Appl Mater Interfaces
. 2020 Jul;
12(30):33656-33669.
PMID: 32608962
Fabrication on transparent soda-lime glass/fluorine-doped tin oxide (FTO) substrates opens the way to advanced applications for kesterite solar cells such as semitransparent, bifacial, and tandem devices, which are key to...
6.
Burwig T, Franzel W, Pistor P
J Phys Chem Lett
. 2018 Aug;
9(16):4808-4813.
PMID: 30084256
We present the growth, phase transitions, and thermal decomposition of CsPbX (X = I, Br) thin films monitored by in situ X-ray diffraction (XRD). The perovskite films are prepared in...
7.
Guc M, Hariskos D, Calvo-Barrio L, Jackson P, Oliva F, Pistor P, et al.
Sci Rep
. 2017 Apr;
7(1):1144.
PMID: 28442796
This work reports a detailed resonant Raman scattering analysis of ZnMgO solid solution nanometric layers that are being developed for high efficiency chalcogenide solar cells. This includes layers with thicknesses...
8.
Pistor P, Ruiz A, Cabot A, Izquierdo-Roca V
Sci Rep
. 2016 Oct;
6:35973.
PMID: 27786250
In recent years, there has been an impressively fast technological progress in the development of highly efficient lead halide perovskite solar cells. However, the stability of perovskite films and respective...
9.
Pistor P, Merino Alvarez J, Leon M, Di Michiel M, Schorr S, Klenk R, et al.
Acta Crystallogr B Struct Sci Cryst Eng Mater
. 2016 Jun;
72(Pt 3):410-5.
PMID: 27240773
Semiconducting indium sulfide (In2S3) has recently attracted considerable attention as a buffer material in the field of thin film photovoltaics. Compared with this growing interest, however, detailed characterizations of the...
10.
Pistor P, Borchert J, Franzel W, Csuk R, Scheer R
J Phys Chem Lett
. 2015 Aug;
5(19):3308-12.
PMID: 26278437
Perovskite solar cells based on (CH3NH3)Pb(I,Cl)3 have recently demonstrated rapidly increasing cell efficiencies. Here, we show progress identifying phases present during the growth of (CH3NH3)Pb(I,Cl)3 perovskite thin films with the...