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Phosphine,tri(methyl-d3)(8CI,9CI), also known as Trimethylphosphine-d9, is a labelled analogue of Trimethylphosphine (T808508). It is a phosphine compound characterized by the presence of three deuterated (methyl-d3) groups attached to a central phosphorus atom. Phosphine,tri(methyl-d3)(8CI,9CI) is primarily used in the field of chemistry for the prediction of redox potential of metal complexes.

22529-57-3

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22529-57-3 Usage

Uses

Used in Chemical Research:
Phosphine,tri(methyl-d3)(8CI,9CI) is used as a predictive agent for determining the redox potential of metal complexes. Its application in this field is crucial for understanding the behavior of metal complexes in various chemical reactions and their potential use in different industries.
Used in Analytical Chemistry:
In the field of analytical chemistry, Phosphine,tri(methyl-d3)(8CI,9CI) serves as a valuable tool for the identification and quantification of metal complexes. Its unique properties allow for accurate measurements and analysis of these complexes, contributing to the advancement of research in this area.
Used in Pharmaceutical Industry:
Phosphine,tri(methyl-d3)(8CI,9CI) may also find applications in the pharmaceutical industry, particularly in the development of new drugs and therapies. Its ability to predict the redox potential of metal complexes can be utilized in the design and synthesis of novel pharmaceutical compounds with potential therapeutic applications.

Check Digit Verification of cas no

The CAS Registry Mumber 22529-57-3 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 2,2,5,2 and 9 respectively; the second part has 2 digits, 5 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 22529-57:
(7*2)+(6*2)+(5*5)+(4*2)+(3*9)+(2*5)+(1*7)=103
103 % 10 = 3
So 22529-57-3 is a valid CAS Registry Number.

22529-57-3SDS

SAFETY DATA SHEETS

According to Globally Harmonized System of Classification and Labelling of Chemicals (GHS) - Sixth revised edition

Version: 1.0

Creation Date: Aug 20, 2017

Revision Date: Aug 20, 2017

1.Identification

1.1 GHS Product identifier

Product name tris(trideuteriomethyl)phosphane

1.2 Other means of identification

Product number -
Other names Perdeutero-trimethyl-phosphin

1.3 Recommended use of the chemical and restrictions on use

Identified uses For industry use only.
Uses advised against no data available

1.4 Supplier's details

1.5 Emergency phone number

Emergency phone number -
Service hours Monday to Friday, 9am-5pm (Standard time zone: UTC/GMT +8 hours).

More Details:22529-57-3 SDS

22529-57-3Downstream Products

22529-57-3Relevant academic research and scientific papers

Reactions of 3,3-diphenylcyclopropene with iridium(I) complexes: Probing the mechanism of cyclopropene rearrangements at transition metal centers

Li, Robert T.,Nguyen, SonBinh T.,Grubbs, Robert H.,Ziller, Joseph W.

, p. 10032 - 10040 (2007/10/02)

This paper describes the syntheses and reactivities of a series of IrCl(CO)(PR3)2(η2-3,3-diphenylcyclopropene) complexes (1, PR3 = PMe3; 2, PR3 = PMe2Ph; 3, PR3 = PMePh2; 4, PR3 = PEt3). NMR spectroscopic data for these complexes and a single crystal X-ray diffraction study of 1 support a trigonal bipyramidal structure where the PR3 ligands and the olefin lie in the equatorial plane. The equilibrium between free and bound olefin was found to depend on the size of the tertiary phosphine: olefin coordination becomes less favorable as the cone angle of the tertiary phosphine increases. Lability of the olefin moiety was demonstrated by exchange of the olefin in 1 with deuterium-labeled 3,3-diphenylcyclopropene. In the presence of excess IrCl(CO)(PMe3)2) complex 1 rearranges. Spectroscopic data support the formation of an iridacyclobutene as part of a bimetallic complex where the iridacyclobutene moiety is stabilized by η2-coordination to IrCl(CO)(PMe3)2. Mechanistic studies support formation of this bimetallic complex by direct insertion of IrCl(CO)(PMe3)2 into the C-C σ-bond of the cyclopropene moiety in 1. Kinetic measurements suggest that this reaction occurs by a second-order process, first order in both IrCl(CO)(PMe3)2 and 1. The mechanism of C-C bond insertion was further supported by isotopic-labeling experiments, which demonstrate that the metal in the metallacycle originates from free IrCl(CO)(PMe3)2.

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