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663905

Sigma-Aldrich

N,N′-Diphenyl-3,4,9,10-Perylendicarboximid

98%

Synonym(e):

PTCDI-Ph

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About This Item

Empirische Formel (Hill-System):
C36H18N2O4
CAS-Nummer:
128-65-4
Molekulargewicht:
542.54
EG-Nummer:
204-902-7
MDL-Nummer:
MFCD00151605
UNSPSC-Code:
12352103
PubChem Substanz-ID:
24884667
NACRES:
NA.23

Assay

98%

Form

solid

mp (Schmelzpunkt)

>300 °C

λmax

527 nm

Fluoreszenz

λem ≤534 nm in chloroform

Halbleitereigenschaften

N-type (mobility=10−5 cm2/V·s)

SMILES String

O=C1N(c2ccccc2)C(=O)c3ccc4c5ccc6C(=O)N(c7ccccc7)C(=O)c8ccc(c9ccc1c3c49)c5c68

InChI

1S/C36H18N2O4/c39-33-25-15-11-21-23-13-17-27-32-28(36(42)38(35(27)41)20-9-5-2-6-10-20)18-14-24(30(23)32)22-12-16-26(31(25)29(21)22)34(40)37(33)19-7-3-1-4-8-19/h1-18H

InChIKey

OGEZSLXPCKHGKO-UHFFFAOYSA-N

Allgemeine Beschreibung

N,N′-Diphenyl-3,4,9,10-perylenedicarboximide (PTCDI-Ph) is an asphaltene based conducting polymer that has an archipelago model. It is a perylene diimide derivative that has a high electron affinity and shows good chemical stability. It can be used as an active layer in the development of organic electronic devices.

Anwendung

PTCDI-Ph is a conjugating polymer that forms an ultrathin film that can be used in the fabrication of organic field effect transistors (OFETs) for nitrogen dioxide sensor based applications.

Piktogramme

Exclamation mark
GHS07

Signalwort

Warning

Gefahreneinstufungen

Eye Irrit. 2 - Skin Irrit. 2 - STOT SE 3

Zielorgane

Respiratory system

Lagerklassenschlüssel

11 - Combustible Solids

WGK

WGK 3

Flammpunkt (°F)

Not applicable

Flammpunkt (°C)

Not applicable

Persönliche Schutzausrüstung

dust mask type N95 (US), Eyeshields, Gloves

Hier finden Sie alle aktuellen Versionen:

Analysenzertifikate (COA)

Lot/Batch Number
04103PD

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Die Dokumentenbibliothek aufrufen

Response enhancement mechanism of NO2 gas sensing in ultrathin pentacene field-effect transistors.
Mirza M, et al.
Organic Electronics, 24(9), 96-100 (2015)
The influence of CO2 on the structure of confined asphaltenes in calcite nanopores.
Mohammed S and Gadikota G
Fuel: The Science and Technology of Fuel and Energy, 236, 769-777 (2019)
High performance nitrogen dioxide sensor based on organic field-effect transistor utilizing ultrathin CuPc/PTCDI-C8 heterojunction.
Fan H, et al.
Synthetic Metals, 211(9), 161-166 (2016)
Heteroepitaxy growth high performance films of perylene diimide derivatives.
Huang L, et al.
Organic Electronics, 11(2), 195-201 (2010)
Electronic structure of the conduction band of the interface region of ultrathin films of substituted perylenedicarboximides and the germanium oxide surface.
Komolov AS, et al.
Physics of the Solid State, 58(9), 1901-1905 (2016)

Artikel

Organic Materials for Thin Film Transistors

Flexible electronic circuits, displays, and sensors based on organic active materials will enable future generations of electronics products that may eventually enter the mainstream electronics market.

Self-Assembled Nanodielectrics (SANDs) for Unconventional Electronics

Review the potential of self-assembled multilayer gate dielectric films fabricated from silane precursors for organic, inorganic, and transparent TFT and for TFT circuitry and OLED displays.

Polymer Semiconductors for Intrinsically Stretchable Organic Transistors

Intrinsically stretchable active layers for organic field-effect transistors (OFET) are discussed. Polymer structural modification & post-polymerization modifications are 2 methods to achieve this.

Soluble Pentacene Precursors

Fabrication procedure of organic field effect transistor device using a soluble pentacene precursor.

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