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(4-TRIFLUOROMETHYL-BENZYL)-HYDRAZINE is a hydrazine derivative with a trifluoromethyl-benzyl group attached to the hydrazine moiety. It has the molecular formula C8H9F3N2 and is a valuable and versatile chemical building block in organic synthesis due to its unique properties and functional groups.

2924-77-8

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2924-77-8 Usage

Uses

Used in Pharmaceutical Industry:
(4-TRIFLUOROMETHYL-BENZYL)-HYDRAZINE is used as a building block in the synthesis of pharmaceutical intermediates. Its trifluoromethyl group contributes to enhanced stability, reactivity, and biological activity, making it a valuable component in the development of new pharmaceutical compounds.
Used in Agrochemical Industry:
(4-TRIFLUOROMETHYL-BENZYL)-HYDRAZINE is used as a building block in the synthesis of agrochemicals. Its unique properties and functional groups make it a versatile component in the development of new agrochemical products.
Used in the Development of New Materials:
(4-TRIFLUOROMETHYL-BENZYL)-HYDRAZINE can be utilized in the development of new materials due to its unique properties and functional groups. Its trifluoromethyl group contributes to enhanced stability and reactivity, making it a valuable component in the creation of innovative materials.
Used in Chemical Processes:
(4-TRIFLUOROMETHYL-BENZYL)-HYDRAZINE can be used in various chemical processes due to its unique properties and functional groups. Its trifluoromethyl group contributes to enhanced stability and reactivity, making it a valuable component in the development of new chemical processes.

Check Digit Verification of cas no

The CAS Registry Mumber 2924-77-8 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 2,9,2 and 4 respectively; the second part has 2 digits, 7 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 2924-77:
(6*2)+(5*9)+(4*2)+(3*4)+(2*7)+(1*7)=98
98 % 10 = 8
So 2924-77-8 is a valid CAS Registry Number.

2924-77-8Relevant academic research and scientific papers

ADENOSINE A2A RECEPTOR ANTAGONISTS

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Page/Page column 10, (2008/12/04)

Compounds having the structural formula I or a pharmaceutically acceptable salt thereof, wherein: X1 and X2 are 1-3 substituents independently selected from the group consisting of H, alkyl, halo, —CF3, —OCF3, alkoxy, —OH and —CN;n is 0, 1 or 2; andR and R1 are H or alkyl; also disclosed is the use of the compounds in the treatment of CNS diseases such as Parkinson's disease, alone or in combination with other agents for treating CNS diseases, pharmaceutical compositions comprising them and kits comprising the components of the combinations.

Mechanisms of benzyl group transfer in the decay of (E)-arylmethanediazoates and aryldiazomethanes in aqueous solutions

Finneman, Jari I.,Fishbein, James C.

, p. 4228 - 4239 (2007/10/02)

Rate constants are reported for the buffer-independent decay of ten (E)-arylmethanediazoates in aqueous media at 25 °C, ionic strength 1 M (NaClO4), 4% 2-propanol, in the region of pH 4-12. The rate constants are proportional to hydrogen ion concentration at high pH and become pH independent in the low-pH region. Varying concentrations of oxyanion, amine, and hydrazine buffers over the range 0.05-0.2 M increased the pseudo-first-order rate constant for decay of the diazoates by less than 10%. The azide - water selectivities, ka/ks, for partitioning of the benzyl groups in the decay of (E)-(3,5-bis(trifluoromethyl)phenyl)methanediazoate and the (3,5-bis(trifluoromethyl)phenyl)diazomethane are determined to be 0.20 and 0.21 M-1, respectively, in phosphate buffered water and 0.27 and 0.26 M-1, respectively, in 20/80 DMSO-water. It is concluded that these two reactants decompose, in these media, via a common free diazonium ion intermediate that is formed in the case of the diazoate upon unassisted N-O bond cleavage of the diazoic acid. A common rate-limiting step is indicated for all the diazoates by the correlation line for the plot of log k1, the pH independent rate constant, against σ that has a slope q = -1.23. Product ratios for trapping of benzyl groups derived from other pairs of arylmethanediazoates and aryldiazomethanes with less electron withdrawing groups are different outside experimental error, indicating the importance of different nitrogen-separated ion pairs in these reactions. The (E)-(p-methoxy)phenyl)methane-16O-diazoate decomposes in 16O/18O water to give alcohol that has an "excess" abundance of 16O compared to solvent. Decomposition of the same compound in 50/50 trifluoroethanol-water with varying concentrations of azide indicates that azide ion appears to trap a limiting amount, ~80%, of the p-methoxybenzyl group. Quantitative analysis of the data indicates that 16% of the p-methoxybenzyl cation is trapped by solvent at the nitrogen-separated ion pair stage, in the absence of azide ion. There is a 9-fold enhancement of selectivity for trifluoroethanol at the ion pair stage that is ascribed to a proton switch initiated by the leaving hydroxide ion in the ion pair. The values of Ka/ks ~ 0.2 M-1 and kT/kH ~ 0.5-0.6 for the trifluoroethanol-water selectivity and kET/kT ~ 1 for the ethanol-trifluoroethanol selectivity are independent of substituent in the decay of arylmethanediazoates (X = H and EWG) in water, water-trifluoroethanol (50/50), and water-trifluoroethanol-ethanol (50/40/10), respectively. It is concluded from this that the productdetermining steps do not involve chemical bonding but rather rotational/translational reorientation of the nucleophiles in the first solvation sphere of the carbocation intermediates. It is concluded that the values of kH/kT = 0.5-0.6 indicate preferential solvation of the cation precursor by trifluoroethanol. It is shown that a preferential interaction for trifluoroethanol of 1 kcal/mol is required to generate the observed selectivities.

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