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α-[D1]-cyclohexane carboxaldehyde is a deuterated derivative of cyclohexane carboxaldehyde, where one hydrogen atom is replaced by a deuterium atom (D1). α-[D1]-cyclohexane carboxaldehyde is an organic molecule with the molecular formula C6D6O, and it is characterized by a cyclohexane ring with a formyl group (-CHO) attached to the alpha position. It is used in various applications, including as a synthetic intermediate in the preparation of deuterated organic compounds and in chemical research to study the effects of deuterium substitution on chemical reactivity and physical properties. The deuteration can lead to changes in the compound's stability, solubility, and reaction kinetics, making it a valuable tool in organic chemistry and related fields.

85390-91-6

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85390-91-6 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 85390-91-6 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 8,5,3,9 and 0 respectively; the second part has 2 digits, 9 and 1 respectively.
Calculate Digit Verification of CAS Registry Number 85390-91:
(7*8)+(6*5)+(5*3)+(4*9)+(3*0)+(2*9)+(1*1)=156
156 % 10 = 6
So 85390-91-6 is a valid CAS Registry Number.

85390-91-6Upstream product

85390-91-6Relevant academic research and scientific papers

Vicinal, Double C-H Functionalization of Alcohols via an Imidate Radical-Polar Crossover Cascade

Nagib, David A.,Prusinowski, Allen F.,Twumasi, Raymond K.,Wappes, Ethan A.

, (2020)

A double functionalization of vicinal sp3 C-H bonds has been developed, wherein a β amine and γiodide are incorporated onto an aliphatic alcohol in a single operation. This approach is enabled by an imidate radical chaperone, which selectively affords a transient β alkene that is amino-iodinated in situ. Overall, the radical-polar-crossover cascade entails the following key steps: (i) β C-H iodination via 1,5-hydrogen atom transfer (HAT), (ii) desaturation via I2 complexation, and (iii) vicinal amino-iodination of an in situ generated allyl imidate. The synthetic utility of this double C-H functionalization is illustrated by conversion of aliphatic alcohols to a diverse collection of α,β,γsubstituted products bearing heteroatoms on three adjacent carbons. The radical-polar crossover mechanism is supported by various experimental probes, including isotopic labeling, intermediate validation, and kinetic studies.

Highly efficient antibody-catalyzed deuteration of carbonyl compounds

Shulman, Avidor,Sitry, Danielle,Shulman, Hagit,Keinan, Ehud

, p. 229 - 239 (2007/10/03)

Antibody 38C2 efficiently catalyzes deuterium-exchange reactions at the α position of a variety of ketones and aldehydes, including substrates that have a variety of sensitive functional groups. In addition to the regio- and chemoselectivity of these reactions, the catalytic rates (kcat) and rate-enhancement values (kcat/kun) are among the highest values ever observed with catalytic antibodies. Comparison of the substrate range of the catalytic antibody with highly evolved aldolase enzymes, such as rabbit-muscle aldolase, highlights the much broader practical scope of the antibody, which accepts a wide range of substrates. The hydrogen-exchange reaction was used for calibration and mapping of the antibody active site. Isotope-exchange experiments with cycloheptanone reveal that the formation of the Schiff base species (as concluded from the 16O/18O exchange rate at the carbonyl oxygen) is much faster than the formation of the enamine intermediate (as concluded from the H/D exchange rate), and both steps are faster than the antibody-catalyzed aldol addition reaction.

Photochemistry of Alkyl Halides. 9. Geminal Dihalides

Kropp, Paul J.,Pienta, Norbert J.

, p. 2084 - 2090 (2007/10/02)

The photobehavior of the geminal dihalides (diiodomethyl)cyclohexane (7), (bromoiodomethyl)cyclohexane (11), (dibromomethyl)cyclohexane (17), (diiodomethyl)cyclopentane (22), 3,3-dimethyl(diiodomethyl)cyclobutane (27), and 8,8-diiodo-2,6-dimethyl-2-octene (31) has been studied and compared with that previously observed for diiodomethane.In all solvents the corresponding vinyl halides (iodomethylene)cyclohexane (13), (bromomethylene)cyclohexane (21), (iodomethylene)cyclopentane (23), 3,3-dimethyl(iodomethylene)cyclobutane (28), or cis- and trans-3,7-dimethyl-1-iodo-1,6-octadiene (33) were obtained, which are thought to arise from α-halo cationic intermediate formed via initial light-induced homolytic cleavage of the carbon-iodine bond followed by electron transfer within the resulting caged radical pair, as shown in Schemes II and III.In the case of diiodide 31 competing intramolecular trapping of the α-iodo cation afforded in addition the cyclized isopulegyl iodide (34).In polar solvents the vinyl iodides were accompanied by the nonhalogenated products methylenecyclohexane (15), 1-methylcyclopentene (25), cyclohexene (26), 4,4-dimethylcyclopentene (29), and cis- and trans-carane (35), which are thought also to arise from the α-halo cationic intermediate. 1.1-Diiodo-2,2-dimethylpropane (1b) afforded 2-methyl-2-butene (6b).Except for carane (35) from diiodide 31 there was no detectable formation of cyclopropanes.In methanol the nucleophilic substitution products (dimethoxymethyl)cyclohexane (14), (dimethoxymethyl)cyclopentane (24), and 1,1-dimethoxy-2,2-dimethylpropane (30) were obtained.It is concluded that geminal dihalides undergo predominant, if not exclusive, photoreaction via initial clea vage of a single carbon-halogen bond in analogy with monohalides and that carbene intermediates are not formed.A similiar conclusion has been reached previously for diiodomethane in the photocyclopropanation of alkenes.

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