132-65-0

  • Product NameDibenzothiophene
  • Molecular FormulaC12H8S
  • Molecular Weight184.26
  • Purity99%
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Product Details

Quick Details

  • CasNo: 132-65-0
  • Molecular Formula: C12H8S
  • Purity: 99%

Top Purity Dibenzothiophene 132-65-0 Crystalline Powder

  • Molecular Formula:C12H8S
  • Molecular Weight:184.262
  • Appearance/Colour:White to light yellow crystal powder 
  • Vapor Pressure:0.000281mmHg at 25°C 
  • Melting Point:97-100 °C(lit.) 
  • Refractive Index:1.756 
  • Boiling Point:332.5 °C at 760 mmHg 
  • Flash Point:114.806 °C 
  • PSA:28.24000 
  • Density:1.252 g/cm3 
  • LogP:4.05450 

Dibenzothiophene(Cas 132-65-0) Usage

Unlocking Potential with Dibenzothiophene from Puyang Huicheng Electronic Materials Co., Ltd.

At Puyang Huicheng Electronic Materials Co., Ltd., we pride ourselves on delivering high-quality chemical intermediates that drive innovation and efficiency in various industries. One of our flagship products, Dibenzothiophene (DBT), exemplifies our commitment to excellence and cutting-edge technology. Established in 2002, our company has grown into a national high-tech enterprise, continuously advancing the fields of electronics, pharmaceuticals, and beyond.


Dibenzothiophene is a unique and versatile polycyclic aromatic hydrocarbon (PAH) with significant applications:

Optoelectronics: DBT serves as a crucial intermediate in the production of organic light-emitting diodes (OLEDs), enhancing the efficiency and longevity of these devices.
Pharmaceuticals: It acts as a key intermediate in the synthesis of various pharmaceutical compounds, contributing to advancements in medical research and drug development.
Petroleum Industry: DBT is an essential component in crude oil and petroleum, used to investigate the effects of sulfur compounds during refining processes like fluid catalytic cracking (FCC).


Unmatched Chemical Properties
Dibenzothiophene is recognized for its distinct chemical characteristics:

Stability: Exhibits thermal stability and resistance to mild oxidizing agents, making it a reliable choice for high-temperature applications.
Solubility: Soluble in ethanol, benzene, chloroform, and methanol, but insoluble in water, offering versatility in various industrial processes.
Reactivity: Undergoes smooth electrophilic substitution reactions, primarily at the 2-position, facilitating the creation of 2-substituted derivatives.


Applications and Uses
Dibenzothiophene is integral to numerous industrial processes:

Chemical Synthesis: Used as a starting material for synthesizing sulfoxides and sulfones through oxidative desulfurization, employing various catalysts.
Environmental Applications: Serves as a template for surface molecular imprinted polymers (SMIP), aiding in the removal of sulfur compounds from gasoline.
Polymer Science: Acts as a precursor for synthesizing DBT-based π-conjugating polymers, essential in the development of advanced materials with enhanced electrochemical and electro-optical properties.


Puyang Huicheng: A Leader in Chemical Innovation
Our extensive experience and advanced facilities enable us to produce top-quality dibenzothiophene that meets the diverse needs of our clients. Key strengths include:

Research and Development: Our provincial technical center focuses on continuous innovation, ensuring we stay at the forefront of the industry.
Quality Control: Adhering to ISO9001:2008 standards, we guarantee the highest levels of quality and consistency in our products.
Global Reach: With independent import and export rights, we serve a broad international market, including Europe, America, and Southeast Asia.


Commitment to Sustainability
Understanding the environmental impact of sulfur compounds, Puyang Huicheng is dedicated to sustainable practices. Our research into desulfurization and the development of environmentally friendly technologies underscores our commitment to reducing pollution and promoting cleaner industrial processes.

 

InChI:InChI=1/C12H8S/c1-3-7-11-9(5-1)10-6-2-4-8-12(10)13-11/h1-8H

132-65-0 Relevant articles

S-scheme heterojunction of ZnCdS nanospheres and dibenzothiophene modified graphite carbon nitride for enhanced H2 production

Han Li , Shanren Tao , Sijie Wan , Guogen Qiu , Qing Long , Jiaguo Yu , Shaowen Cao

Chinese Journal of Catalysis Volume 46, March 2023, Pages 167-176

Herein, ZCS (ZnCdS nanospheres)@DBTCN (g-C3N4 modified by dibenzothiophene groups) S-scheme heterojunction photocatalyst was synthesized through a self-assembly approach.

Deep oxidative desulfurization of dibenzothiophene by novel POM-based IL immobilized on well-ordered KIT-6

Yongcong Ding, Jian Wang, Mingyu Liao, Jiachun Li, Linfeng Zhang, Jia Guo, Huadong Wu

Chemical Engineering Journal Volume 418, 15 August 2021, 129470

In this study, a novel active phase POM-based IL-[Omim]3PMo12O40 was synthesized, and then it was supported on well-ordered KIT-6. [Omim]3PMo12O40/KIT-6 catalyst was used in the dibenzothiophene (DBT) and real diesel oxidative desulfurization with tertbutyl hydroperoxide (TBHP) as an oxidant.

EFFECT OF RING SIZE ON PHOTOREACTIVITY OF MEDIUM AND LARGE RING ESTERS.

Kulkarni, V. S.,Kulkarni, N. N.,Lele, S. R.,Hosangadi, B. D.

, p. 6169 - 6174 (1988)

Photochemical studies on 7,8,12,14,16 an...

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