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CAS:5505-72-6 | 1,3,5-TRIVINYL-1,3,5-TRIMETHYLCYCLOTRISILAZANE

CAS:5505-72-6 | 1,3,5-TRIVINYL-1,3,5-TRIMETHYLCYCLOTRISILAZANE

Molecular Formula:C9H21N3Si3
Molecular Weight:255.54
EINECS:226-848-3
Package:5g 25g 100g
Worldwide Delivery
Made in China

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Product Introduction

Introduction of CAS:5505-72-6 | 1,3,5-TRIVINYL-1,3,5-TRIMETHYLCYCLOTRISILAZANE

 

2,4,6-Trimethyl-2,4,6-trivinylcyclotrisilazane (TMTV) is a cyclotrisilazane compound that has recently gained attention for its use in a variety of scientific research applications. This compound is a silylating agent that has been used in a number of fields, including organic and inorganic chemistry, biochemistry, and material science. It has a wide range of properties, including low toxicity, low reactivity, and high thermal stability. It has been used in a number of different research applications, including the synthesis of polymers and other materials, the preparation of nanoparticles, and the modification of proteins and other biomolecules.

 

Specification of CAS:5505-72-6 | 1,3,5-TRIVINYL-1,3,5-TRIMETHYLCYCLOTRISILAZANE

 

ITEMS

SPECIFICATION

Boiling point

106 °C

Color

Colorless to light yellow to light orange

Form

transparency liquid

Density

0.964 g/mL at 20 °C(lit.)

Refractive index

n20/D 1.482

Acidity coefficient (pKa)

11.79±0.20(Predicted)

 

Research Application of CAS:5505-72-6 | 1,3,5-TRIVINYL-1,3,5-TRIMETHYLCYCLOTRISILAZANE

 

Polymer-Derived Si–C–B–N Ceramics

2,4,6-Trimethyl-2,4,6-trivinylcyclotrisilazane (VSZ) has been utilized alongside borazine for synthesizing preceramic polymers for Si–C–B–N ceramics. These polymers, obtained through hydroboration, form amorphous solids that are stable up to 1400 °C and show slight crystallization at 1800 °C. This material demonstrates excellent oxidation resistance in air and is capable of forming dense, smooth ceramic films via spin-coating the liquid polymer (Nghiem et al., 2003).

 

Low-k SiCxNy Films for Enhanced Performance

The compound has been employed in the creation of low-k SiCxNy films through Plasma-Enhanced Chemical Vapor Deposition. These films are researched for their enhanced mechanical and tribological performance, offering better control over film composition compared to multi-precursors (Tu, Chen, & Leu, 2012).

 

Electrical Properties of Amorphous SiCxNyHz-Ceramics

Investigations into the electrical properties of amorphous SiCxNyHz-ceramics derived from 2,4,6-Trimethyl-2,4,6-trivinylcyclotrisilazane through polymer pyrolysis have been conducted. These studies reveal significant variations in d.c. conductivity based on pyrolysis temperature, providing insights into the structural changes and potential applications in electronic devices (Trassl et al., 2003).

 

SiCN:Li Ceramics for Electrochemical Applications

The compound has been used for synthesizing lithium-containing silicon carbonitride ceramics (SiCN:Li), which are potential materials for electrochemical applications like Li-ion batteries. These ceramics offer interesting properties as alternative anode or solid electrolyte materials (Liebau-Kunzmann et al., 2006).

 

Mesoporous SiCBN Ceramic Templated by Mesoporous Carbon

 

Another application involves the synthesis of well-ordered mesoporous SiCBN ceramics. This process uses a polymeric precursor derived from 2,4,6-Trimethyl-2,4,6-trivinylcyclotrisilazane and involves infiltrating this into a mesoporous carbon template, followed by pyrolysis. The resulting material has a high surface area and is potentially useful in various catalytic and filtration applications (Nghiem, Ryoo, & Kim, 2007).

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