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α-Deuterio-4-vinylbiphenyl is a chemical compound characterized by the presence of a deuterium atom (a stable isotope of hydrogen with one neutron and one proton) at the alpha position and a vinyl group (a carbon-carbon double bond) attached to the 4-position of a biphenyl molecule. Biphenyl itself consists of two benzene rings connected by a single bond, and the vinyl group provides additional reactivity and functionality to the molecule. α-deuterio-4-vinylbiphenyl is often used in chemical research and synthesis, particularly in the study of isotope effects and the development of deuterated compounds for various applications, such as in pharmaceuticals and materials science.

57204-38-3

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57204-38-3 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 57204-38-3 includes 8 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 5 digits, 5,7,2,0 and 4 respectively; the second part has 2 digits, 3 and 8 respectively.
Calculate Digit Verification of CAS Registry Number 57204-38:
(7*5)+(6*7)+(5*2)+(4*0)+(3*4)+(2*3)+(1*8)=113
113 % 10 = 3
So 57204-38-3 is a valid CAS Registry Number.

57204-38-3Downstream Products

57204-38-3Relevant academic research and scientific papers

Olefination via Cu-Mediated Dehydroacylation of Unstrained Ketones

Dong, Guangbin,Xu, Yan,Zhou, Xukai

supporting information, p. 20042 - 20048 (2021/12/03)

The dehydroacylation of ketones to olefins is realized under mild conditions, which exhibits a unique reaction pathway involving aromatization-driven C-C cleavage to remove the acyl moiety, followed by Cu-mediated oxidative elimination to form an alkene between the α and β carbons. The newly adopted N′-methylpicolinohydrazonamide (MPHA) reagent is key to enable efficient cleavage of ketone C-C bonds at room temperature. Diverse alkyl- and aryl-substituted olefins, dienes, and special alkenes are generated with broad functional group tolerance. Strategic applications of this method are also demonstrated.

Ultrafast study of p-biphenylyldiazoethane. The chemistry of the diazo excited state and the relaxed carbene

Wang, Jin,Burdzinski, Gotard,Gustafson, Terry L.,Platz, Matthew S.

, p. 2597 - 2606 (2007/10/03)

Ultrafast photolysis of p-blphenylyldiazoethane (BDE) produces an excited state of the diazo compound in acetonitrile, cyclohexane, and methanol with λmax = 490 nm and lifetimes of less than 300 fs. The decay of the diazo excited state correlates with the growth of singlet carbene absorption at 360 nm. The optical yields of diazo excited states produced by photolysis of p-biphenylyldiazomethane (BDM) and BDE are the same; however, the optical yield of singlet p-biphenylylmethylcarbene (1BpCMe) is 30-40% less than that of p-biphenylylcarbene (1BpCH) in all three solvents. The results are explained by rearrangement in the excited state (RIES) of BDE to form p-vinylbiphenyl (VB) in parallel with extrusion of nitrogen to form 1BpCMe in reduced yield. This interpretation is consistent with product studies (ethanol-OD in cyclohexane) which indicate that there is an ~25% yield of VB that is formed by a mechanism that bypasses the relaxed singlet carbene. The decay of 1BpCMe is biexponential, and that of 1BpCH is monoexponential. This is attributed either to efficient relaxation of vibrationally excited 1BpCMe by 1,2 migration of hydrogen to form VB (minor) or to the increased number of low-frequency vibrational modes provided by the methyl group (major). A methyl group retards the rate of intersystem crossing (ISC), relative to a hydrogen atom, and ISC is more rapid in nonpolar solvents. Reaction of 1BpCMe with methanol is much faster than spin equilibration. Both the lifetime of 1BpCMe and 1BpCH are the same in cyclohexane and in cyclohexane-d12. This demonstrates that spin equilibration is faster than reaction of either carbene with the solvent. The lifetimes of 1BpCMe and 1BpCMe-d3 are the same in cyclohexane. This indicates that 1,2 hydrogen migration of 1BpCMe to form VB is slower than spin equilibration in cyclohexane. In acetonitrile, however, the lifetime of 1BpCMe-d3 is 1.5 times longer than that of 1BpCMe in the same solvent. Thus, in acetonitrile, where ISC is slow, the rate of 1,2 hydrogen shift of 1BpCMe is competitive with ISC. In cyclohexene, the lifetime of 1BpCH is shortened relative to that in cyclohexane. The lifetime of 1BpCMe is the same in cyclohexene and cyclohexane. The data indicate that spin relaxation is slow relative to reaction of 1BpCH with neat alkene but that spin relaxation is fast for 1BpCMe relative to reaction with neat cyclohexene.

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