Phenothiazine-Based Hole-Transporting Materials toward Eco-friendly Perovskite Solar Cells

J. Salunke; X. Guo; Z. Lin; J. Vale; N. Candeias; Mathias Nyman; Staffan Dahlström; Ronald Österbacka; A. Priimagi; J. Chang; P. Vivo

doi:10.1021/acsaem.9b00408

Phenothiazine-Based Hole-Transporting Materials toward Eco-friendly Perovskite Solar Cells

J. Salunke, X. Guo, Z. Lin, J. Vale, N. Candeias, Mathias Nyman, Staffan Dahlström, Ronald Österbacka, A. Priimagi, J. Chang, P. Vivo

Tutkimustuotos: Lehtiartikkeli › Artikkeli › Tieteellinen › vertaisarvioitu

52 Sitaatiot (Scopus)

Abstrakti

Organic hole-transporting materials (HTMs), AZO-I and AZO-II, were synthesized via Schiff base chemistry by functionalizing a phenothiazine core with triarylamine(s) through azomethine bridges. Substantial enhancements in the power conversion efficiency (PCE = 12.6% and 14% for AZO-I and AZO-II, respectively) and stability (68% or 91% of PCE retained after 60 days for AZO-I or AZO-II, respectively) of perovskite solar cells (PSCs) were achieved when switching from mono- (AZO-I) to disubstituted (AZO-II) HTMs. The extremely low production costs (9 and 12 $/g for AZO-I and AZO-II, respectively), together with the Pd-catalyst-free synthesis, make these materials excellent candidates for low-cost and eco-friendly PSCs.

Alkuperäiskieli	Englanti
Sivut	3021–3027
Julkaisu	ACS Applied Energy Materials
Vuosikerta	2
Numero	5
DOI - pysyväislinkit	https://doi.org/10.1021/acsaem.9b00408
Tila	Julkaistu - 2019
OKM-julkaisutyyppi	A1 Julkaistu artikkeli, soviteltu

Keywords

hole-transporting materials
azomethine
phenothiazine
low-cost
perovskite solar cells
eco-friendly

Pääsy asiakirjaan

10.1021/acsaem.9b00408Lisenssi: CC BY

https://pubs.acs.org/doi/10.1021/acsaem.9b00408

ASPIRE: A novel sandwich preparation method for highly reproducible and stable perovskite solar cells
Österbacka, R., Smått, J., Vivo, P. & Lund, P. D.
01/01/18 → 31/12/21
Projekti: Foundation

Viittausmuodot

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abstract = "Organic hole-transporting materials (HTMs), AZO-I and AZO-II, were synthesized via Schiff base chemistry by functionalizing a phenothiazine core with triarylamine(s) through azomethine bridges. Substantial enhancements in the power conversion efficiency (PCE = 12.6% and 14% for AZO-I and AZO-II, respectively) and stability (68% or 91% of PCE retained after 60 days for AZO-I or AZO-II, respectively) of perovskite solar cells (PSCs) were achieved when switching from mono- (AZO-I) to disubstituted (AZO-II) HTMs. The extremely low production costs (9 and 12 $/g for AZO-I and AZO-II, respectively), together with the Pd-catalyst-free synthesis, make these materials excellent candidates for low-cost and eco-friendly PSCs.",

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author = "J. Salunke and X. Guo and Z. Lin and J. Vale and N. Candeias and Mathias Nyman and Staffan Dahlstr{\"o}m and Ronald {\"O}sterbacka and A. Priimagi and J. Chang and P. Vivo",

year = "2019",

doi = "10.1021/acsaem.9b00408",

language = "English",

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TY - JOUR

T1 - Phenothiazine-Based Hole-Transporting Materials toward Eco-friendly Perovskite Solar Cells

AU - Salunke, J.

AU - Guo, X.

AU - Lin, Z.

AU - Vale, J.

AU - Candeias, N.

AU - Nyman, Mathias

AU - Dahlström, Staffan

AU - Österbacka, Ronald

AU - Priimagi, A.

AU - Chang, J.

AU - Vivo, P.

PY - 2019

Y1 - 2019

N2 - Organic hole-transporting materials (HTMs), AZO-I and AZO-II, were synthesized via Schiff base chemistry by functionalizing a phenothiazine core with triarylamine(s) through azomethine bridges. Substantial enhancements in the power conversion efficiency (PCE = 12.6% and 14% for AZO-I and AZO-II, respectively) and stability (68% or 91% of PCE retained after 60 days for AZO-I or AZO-II, respectively) of perovskite solar cells (PSCs) were achieved when switching from mono- (AZO-I) to disubstituted (AZO-II) HTMs. The extremely low production costs (9 and 12 $/g for AZO-I and AZO-II, respectively), together with the Pd-catalyst-free synthesis, make these materials excellent candidates for low-cost and eco-friendly PSCs.

AB - Organic hole-transporting materials (HTMs), AZO-I and AZO-II, were synthesized via Schiff base chemistry by functionalizing a phenothiazine core with triarylamine(s) through azomethine bridges. Substantial enhancements in the power conversion efficiency (PCE = 12.6% and 14% for AZO-I and AZO-II, respectively) and stability (68% or 91% of PCE retained after 60 days for AZO-I or AZO-II, respectively) of perovskite solar cells (PSCs) were achieved when switching from mono- (AZO-I) to disubstituted (AZO-II) HTMs. The extremely low production costs (9 and 12 $/g for AZO-I and AZO-II, respectively), together with the Pd-catalyst-free synthesis, make these materials excellent candidates for low-cost and eco-friendly PSCs.

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KW - azomethine

KW - phenothiazine

KW - low-cost

KW - perovskite solar cells

KW - eco-friendly

KW - hole-transporting materials

KW - azomethine

KW - phenothiazine

KW - low-cost

KW - perovskite solar cells

KW - eco-friendly

KW - hole-transporting materials

KW - azomethine

KW - phenothiazine

KW - low-cost

KW - perovskite solar cells

KW - eco-friendly

U2 - 10.1021/acsaem.9b00408

DO - 10.1021/acsaem.9b00408

M3 - Article

SN - 2574-0962

VL - 2

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JO - ACS Applied Energy Materials

JF - ACS Applied Energy Materials

IS - 5

ER -

Phenothiazine-Based Hole-Transporting Materials toward Eco-friendly Perovskite Solar Cells

Abstrakti

Keywords

Pääsy asiakirjaan

Sormenjälki

Projektit

ASPIRE: A novel sandwich preparation method for highly reproducible and stable perovskite solar cells

Viittausmuodot