Cas 906479-76-3,[(CySCH2CH2N(H)CH2CH2SCy)CrCl2(THF)]

906479-76-3

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Product Name: [(CySCH₂CH₂N(H)CH₂CH₂SCy)CrCl₂(THF)]
Synonyms:
CAS NO:906479-76-3
Molecular Formula:
Molecular Weight: 496.57
EINECS: N/A
Product Categories: N/A

Chemical Properties

Melting Point: N/A
Boiling Point: N/A
Flash Point: N/A
Appearance: N/A
Density: N/A
Refractive Index: N/A
Storage Temp.: N/A
Solubility: N/A
CAS DataBase Reference: [(CySCH₂CH₂N(H)CH₂CH₂SCy)CrCl₂(THF)](CAS DataBase Reference)
NIST Chemistry Reference: [(CySCH₂CH₂N(H)CH₂CH₂SCy)CrCl₂(THF)](906479-76-3)
EPA Substance Registry System: [(CySCH₂CH₂N(H)CH₂CH₂SCy)CrCl₂(THF)](906479-76-3)

Safety Data

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Safety Statements: N/A
WGK Germany:
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HazardClass: N/A
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Hazardous Substances Data: 906479-76-3(Hazardous Substances Data)

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Check Digit Verification of cas no

The CAS Registry Mumber 906479-76-3 includes 9 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 6 digits, 9,0,6,4,7 and 9 respectively; the second part has 2 digits, 7 and 6 respectively.
Calculate Digit Verification of CAS Registry Number 906479-76:
(8*9)+(7*0)+(6*6)+(5*4)+(4*7)+(3*9)+(2*7)+(1*6)=203
203 % 10 = 3
So 906479-76-3 is a valid CAS Registry Number.

906479-76-3Upstream product

906479-76-3Downstream Products

906479-76-3Relevant academic research and scientific papers

Role of the metal oxidation state in the SNS-Cr catalyst for ethylene trimerization: Isolation of Di- and trivalent cationic intermediates

Jabri, Amir,Temple, Claire,Crewdson, Patrick,Gambarotta, Sandro,Korobkov, Ilia,Duchateau, Robbert

, p. 9238 - 9247 (2007/10/03)

The reaction of the highly selective [CySCH2CH 2N(H)CH2CH2SCy]CrCl3 catalyst precursor with alkyl aluminum activators was examined with the aim of isolating reactive intermediates. Reaction with Me3Al afforded a cationic trivalent chromium alkyl species {[CySCH2CH2N(H)CH 2CH2SCy]CrMe(μ-Cl)}2{(AlMe3) 2(m-Cl}2·(C7H8)2 (1a). Although it was not possible to obtain crystalline samples of sufficient quality from the reaction with MAO (the most preferred activator), the near-to-identical EPR spectra indicated a very close structural similarity with 1a. Ethylene oligomerization tests clearly revealed that 1 and other cationic trivalent dimeric complexes {[CySCH2CH2N(H)CH 2CH2SCy]CrCl(M-Cl)}2{AlCl4} 2·(C7H8)1.5 (2), monomeric [(CySCH2CH2N(H)CH2CH2SCy)CrCl 2 (THF)][AlCl4] (3), and {[CySCH2CH 2N(H)CH2CH2SCy]Cr(η2-AlCl 4)}{Al2Cl7} (4) adducts display the same catalyst selectivity as the [CySCH2CH2N(H)CH 2CH2SCy]CrCl3 complex and, therefore, are probably all precursors to the same catalytically active species. 2, 3, and 4 were obtained upon treatment of [CySCH2CH2N(H)CH 2CH2SCy] CrCl3 with different stoichiometric ratios of AlCl3. When i-BAO activator was used, reduction of the metal center occurred readily, affording {([CySCH2CH 2N(H)CH2CH2S Cy]Cr)(μ-Cl)] 2}{(i-Bu)2AlCl2}2 (5). 5 is also a selective catalyst, thus indicating that trivalent species are most probably precursors to a divalent catalytically active complex. Reaction of CrCl 2(THF)2 with the ligand afforded the labile divalent adduct [CySCH2CH2N(H)CH2CH2SCy] CrCl2(THF) (6), also catalytically active and selective. Instead, deprotonation of the ligand with n-BuLi followed by reaction with CrCl 2(THF)2 gave the dinuclear complex [(μ-CySCH 2CH2NCH2CH2SCy)CrCl]2 (7), which did not produce oligomers.

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