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902500

Sigma-Aldrich

SHT-263 Solarpur®

greener alternative

Sinonimo/i:

N2,N2,N2′,N2′,N7,N7,N7′,N7′-octakis(4-methoxyphenyl)-9,9′-spirobi[9H-fluorene]-2,2′,7,7′-tetramine, Spiro-MeOTAD, Spiro-OMeTAD

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About This Item

Formula empirica (notazione di Hill):
C81H68N4O8
Numero CAS:
Peso molecolare:
1225.43
Numero MDL:
Codice UNSPSC:
12352103
NACRES:
NA.23

Saggio

≥99.9%

Livello qualitativo

Forma fisica

powder

Caratteristiche più verdi

Design for Energy Efficiency
Learn more about the Principles of Green Chemistry.

sustainability

Greener Alternative Product

Impurezze

≤0.1% Residual solvent

Punto di fusione

247 °C

Categoria alternativa più verde

InChI

1S/C81H68N4O8/c1-86-65-29-9-53(10-30-65)82(54-11-31-66(87-2)32-12-54)61-25-45-73-74-46-26-62(83(55-13-33-67(88-3)34-14-55)56-15-35-68(89-4)36-16-56)50-78(74)81(77(73)49-61)79-51-63(84(57-17-37-69(90-5)38-18-57)58-19-39-70(91-6)40-20-58)27-47-75(79)76-48-28-64(52-80(76)81)85(59-21-41-71(92-7)42-22-59)60-23-43-72(93-8)44-24-60/h9-52H,1-8H3
XDXWNHPWWKGTKO-UHFFFAOYSA-N

Descrizione generale

Both SHT-263S and SHT-263 can be offered in bulk quantities.
SHT-263 Solarpur® is an organic spiro molecule that is used as a hole transporting material (HTM). Its properties include high stability, good solubility, and an amorphous structure. It is majorly used in the fabrication of high-performance solar cells.
We are committed to bringing you Greener Alternative Products,which adhere to one or more of The 12 Principles of Greener Chemistry. This product is an enabling product used as a Hole Transport Material for high-performance solar cells and thus has been enhanced for energy efficiency. Click here for more information.

Applicazioni

SHT-263 Solarpur® is a spiro based hole transporting material (HTM) with a HOMO level of -5.2 eV and a LUMO level of -2.3 eV. It is mainly used in the fabrication of perovskite-based solar cell.

Note legali

Solarpur is a registered trademark of Merck KGaA, Darmstadt, Germany

Codice della classe di stoccaggio

11 - Combustible Solids

Classe di pericolosità dell'acqua (WGK)

WGK 3

Punto d’infiammabilità (°F)

Not applicable

Punto d’infiammabilità (°C)

Not applicable


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I clienti hanno visto anche

G Grancini et al.
Nature communications, 8, 15684-15684 (2017-06-02)
Despite the impressive photovoltaic performances with power conversion efficiency beyond 22%, perovskite solar cells are poorly stable under operation, failing by far the market requirements. Various technological approaches have been proposed to overcome the instability problem, which, while delivering appreciable
New Metal- Free Porphyrins as Hole- Transporting Materials in Mesoporous Perovskite Solar Cells.
Sygkridou D, et al.
ChemistrySelect, 3(9), 2536-2541 (2018)
Air-exposure induced dopant redistribution and energy level shifts in spin-coated spiro-MeOTAD films
Hawash Z, et al.
Chemistry of Materials, 27(2), 562-569 (2015)
Unique hole transport layer of PCDTBT doped with PCPDTBT for perovskite solar cells
Pratyusha T, et al.
Materials Today: Proceedings, 4(7), 6820-6826 (2017)
Hairen Tan et al.
Science (New York, N.Y.), 355(6326), 722-726 (2017-02-06)
Planar perovskite solar cells (PSCs) made entirely via solution processing at low temperatures (<150°C) offer promise for simple manufacturing, compatibility with flexible substrates, and perovskite-based tandem devices. However, these PSCs require an electron-selective layer that performs well with similar processing.

Articoli

Professor Chen (Nankai University, China) and his team explain the strategies behind their recent record-breaking organic solar cells, reaching a power conversion efficiency of 17.3%.

Contenuto correlato

Organic electronics utilizes organic conductors and semiconductors for applications in organic photovoltaics, organic light-emitting diodes, and organic field-effect transistors.

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