Low temperature plasma treatment of MAPI perovskite

a 2021

Low temperature plasma treatment of MAPI perovskite

KAŽIKOVÁ, Veronika; Július VIDA; Aleš VLKAL; Martin LEDINSKÝ; Anna ARTEMENKO et. al.

Základní údaje

Originální název

Low temperature plasma treatment of MAPI perovskite

Autoři

KAŽIKOVÁ, Veronika; Július VIDA; Aleš VLKAL; Martin LEDINSKÝ; Anna ARTEMENKO a Tomáš HOMOLA

Vydání

2nd Plasma Nanotechnologies and Bioapplications Workshop, 2021

Další údaje

Jazyk

angličtina

Typ výsledku

Konferenční abstrakt

Obor

10305 Fluids and plasma physics

Stát vydavatele

Česká republika

Utajení

není předmětem státního či obchodního tajemství

Odkazy

URL

Organizační jednotka

Přírodovědecká fakulta

ISBN

978-80-210-9946-3

Klíčová slova anglicky

perovskite; plasma treatment; solar cells; photoluminescence; XPS

Příznaky

Mezinárodní význam

Změněno: 9. 11. 2021 12:12, Mgr. Marie Novosadová Šípková, DiS.

Anotace

V originále

Methylammonium-lead-iodide (MAPI) perovskite, as one of the most promising light-absorbing material in solar cells, have been spin-coated on glass substrates and treated with a low temperature plasma. Plasma treatment have already been used to other parts of perovskite solar cells (PSC), such as electron/hole transport layers or electrodes, in order to achieve more suitable connection of interfaces, lower the charge recombination rate and obtain higher power conversion efficiencies (PCE). [1] However little is known about the effect of different plasmas used directly on the perovskite surface. As a plasma source, diffuse coplanar surface barrier discharge (DCSBD) has been used, placed directly into a glovebox with nitrogen atmosphere together with a photoluminescence (PL) measurement setup to exclude contact of samples with ambient air during and directly after treatments. PL measurements have revealed intriguing behavior dependent on a length of a plasma treatment. Chemical composition of a surface after treatment has been determined by an X-ray photoelectron spectroscopy.

Citovat

KAŽIKOVÁ, Veronika; Július VIDA; Aleš VLKAL; Martin LEDINSKÝ; Anna ARTEMENKO a Tomáš HOMOLA. Low temperature plasma treatment of MAPI perovskite. In 2nd Plasma Nanotechnologies and Bioapplications Workshop. 2021. ISBN 978-80-210-9946-3.

@proceedings{1801311,
   author = {Kažiková, Veronika and Vida, Július and Vlkal, Aleš and Ledinský, Martin and Artemenko, Anna and Homola, Tomáš},
   booktitle = {2nd Plasma Nanotechnologies and Bioapplications Workshop},
   keywords = {perovskite; plasma treatment; solar cells; photoluminescence; XPS},
   language = {eng},
   isbn = {978-80-210-9946-3},
   title = {Low temperature plasma treatment of MAPI perovskite},
   url = {https://munispace.muni.cz/library/catalog/book/2111},
   year = {2021}
}

TY  - CONF
ID  - 1801311
AU  - Kažiková, Veronika - Vida, Július - Vlkal, Aleš - Ledinský, Martin - Artemenko, Anna - Homola, Tomáš
PY  - 2021
TI  - Low temperature plasma treatment of MAPI perovskite
SN  - 9788021099463
KW  - perovskite
KW  - plasma treatment
KW  - solar cells
KW  - photoluminescence
KW  - XPS
UR  - https://munispace.muni.cz/library/catalog/book/2111
N2  - Methylammonium-lead-iodide (MAPI) perovskite, as one of the most promising light-absorbing material in solar cells, have been spin-coated on glass substrates and treated with a low temperature plasma. Plasma treatment have already been used to other parts of perovskite solar cells (PSC), such as electron/hole transport layers or electrodes, in order to achieve more suitable connection of interfaces, lower the charge recombination rate and obtain higher power conversion efficiencies (PCE). [1] However little is known about the effect of different plasmas used directly on the perovskite surface. As a plasma source, diffuse coplanar surface barrier discharge (DCSBD) has been used, placed directly into a glovebox with nitrogen atmosphere together with a photoluminescence (PL) measurement setup to exclude contact of samples with ambient air during and directly after treatments. PL measurements have revealed intriguing behavior dependent on a length of a plasma treatment. Chemical composition of a surface after treatment has been determined by an X-ray photoelectron spectroscopy.
ER  -

KAŽIKOVÁ, Veronika; Július VIDA; Aleš VLKAL; Martin LEDINSKÝ; Anna ARTEMENKO a Tomáš HOMOLA. Low temperature plasma treatment of MAPI perovskite. In \textit{2nd Plasma Nanotechnologies and Bioapplications Workshop}. 2021. ISBN~978-80-210-9946-3.

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