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[(CH3OC6H3(CH2C6H2(O)(C(O)C6H5)CH2)2C6H2(C(O)C6H5)O)Ti(OCH(CH3)2)] is a chemical with a specific purpose. Lookchem provides you with multiple data and supplier information of this chemical.

1001854-89-2

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1001854-89-2 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1001854-89-2 includes 10 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 7 digits, 1,0,0,1,8,5 and 4 respectively; the second part has 2 digits, 8 and 9 respectively.
Calculate Digit Verification of CAS Registry Number 1001854-89:
(9*1)+(8*0)+(7*0)+(6*1)+(5*8)+(4*5)+(3*4)+(2*8)+(1*9)=112
112 % 10 = 2
So 1001854-89-2 is a valid CAS Registry Number.

1001854-89-2Downstream Products

1001854-89-2Relevant academic research and scientific papers

The role of outer-sphere surface acidity in alkene epoxidation catalyzed by calixarene-Ti(IV) complexes

Notestein, Justin M.,Solovyov, Andrew,Andrini, Leandro R.,Requejo, Felix G.,Katz, Alexander,Iglesia, Enrique

, p. 15585 - 15595 (2008/09/18)

Cooperativity between Bronsted acidic defect sites on oxide surfaces and Lewis acid catalyst sites consisting of grafted calixarene-Ti(IV) complexes is investigated for controlling epoxidation catalysis. Materials are synthesized that, regardless of the surface or calixarene substituent, demonstrate nearly identical UV-visible ligand-to-metal charge-transfer bands and Ti K-edge X-ray absorption near edge spectral features consistent with site-isolated, coordinatively unsaturated Ti(IV) atoms. Despite similar Ti frontier orbital energies demonstrated by these spectra, replacing a homogeneous triphenylsilanol ligand with a silanol on a SiO2 surface increases cyclohexene epoxidation rates with tert-butyl hydroperoxide 20-fold per Ti site. Supporting calixarene-Ti active sites on fully hydroxylated Al 2O3 or TiO2, which possess lower average surface hydroxyl pKa than that of SiO2, reduces catalytic rates 50-fold relative to SiO2. These effects are consistent with SiO2 surfaces balancing two competing factors that control epoxidation rates-equilibrated hydroperoxide binding at Ti, disfavored by stronger surface Bronsted acidity, and rate-limiting oxygen transfer from this intermediate to alkenes, favored by strongly H-bonding intermediates. These observations also imply that Ti-OSi rather than Ti-OCalix bonds are broken upon hydroperoxide binding to Ti in kinetically relevant steps, which is verified by the lack of a calixarene upper-rim substituent effect on epoxidation rate. The pronounced sensitivity of observed epoxidation rates to the support oxide, in the absence of changes to the Ti coordination environment, provides experimental evidence for the importance of outer-sphere H-bonding interactions for the exceptional epoxidation reactivity of titanium silicalite and related catalysts.

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