Description

3,3'-Bi-9H-Carbazole,6,9-Diphenyl- is a high-purity, functionalized carbazole derivative of significant interest in advanced materials research. This compound matters for its role as a sophisticated organic building block, particularly in the development of novel optoelectronic materials. It is primarily needed by R&D and production teams in the organic electronics, photovoltaics, and specialty chemical synthesis sectors.

Application

• Organic Light-Emitting Diodes (OLEDs): Serves as a core component or dopant in the emissive layer for high-efficiency displays and lighting.
• Organic Photovoltaics (OPVs): Used as an electron donor or acceptor material in the active layer of solar cells.
• Charge Transport Materials: Functions as a hole-transporting material (HTM) or host matrix in electronic devices.
• Phosphorescent Material Host: Acts as a host matrix for phosphorescent emitters in OLED devices to improve efficiency and stability.
• Advanced Chemical Synthesis: Employed as a key intermediate for synthesizing more complex conjugated polymers and small molecules.
• Research & Development: Utilized in academic and industrial labs for studying structure-property relationships in π-conjugated systems.

Basic Information

Product Name	3,3'-Bi-9H-Carbazole,6,9-Diphenyl-
CAS No.	1383628-18-9
Molecular Formula	C48H30N2
Molecular Weight	634.77 g/mol
Synonyms	6,9-Diphenyl-3,3'-bi-9H-carbazole; 6,9-Diphenyl-3,3'-bicarbazole; 3,3'-Bicarbazole, 6,9-diphenyl- derivative; Diphenyl-substituted bicarbazole; 3,3'-Linked carbazole dimer; 6,9-Diphenyl-3,3'-dicarbazyl; OLED intermediate 1383628-18-9; Charge transport material CTM-1383628
EINECS	Contact for details

Quality Control

Our 3,3'-Bi-9H-Carbazole,6,9-Diphenyl- is manufactured under strict quality protocols to ensure batch-to-batch consistency and high purity, critical for sensitive optoelectronic applications. Each lot is accompanied by a comprehensive Certificate of Analysis (COA) detailing purity, identity, and impurity profiles. We adhere to relevant industry standards for fine chemical synthesis, and custom purity grades are available to meet specific R&D or production requirements.

Storage

Preserve in a tightly closed container, protected from light. Store in a cool, dry place at a controlled room temperature (15-25°C). Due to its light-sensitive and easily oxidized nature, long-term storage under an inert atmosphere (argon or nitrogen) is recommended to maintain optimal purity and performance.

Specification

Item	Specification
Appearance	Yellow to light brown powder
Identification (IR)	Conforms to structure
Purity (HPLC)	≥ 98.0%
Related Substances (HPLC)	Total impurities ≤ 2.0%
Melting Point	Contact for details
Residue on Ignition	≤ 0.1%
Heavy Metals	≤ 10 ppm

Note: Specifications can be tailored. Please contact us for the detailed technical data sheet of a specific grade.