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p-Chlorobenzaldehyde-d1 is a deuterated derivative of p-chlorobenzaldehyde, an organic compound with the molecular formula C7D6ClO. It is a colorless to pale yellow crystalline solid that is soluble in organic solvents. p-chlorobenzaldehyde-d1 is primarily used as an internal standard in analytical chemistry, particularly in gas chromatography-mass spectrometry (GC-MS) applications, to help quantify and identify p-chlorobenzaldehyde in various samples. The deuteration (replacement of hydrogen atoms with deuterium) in p-chlorobenzaldehyde-d1 provides a distinct mass difference compared to the non-deuterated parent compound, which aids in accurate quantification and differentiation during analysis.

1517-47-1

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1517-47-1 Usage

Check Digit Verification of cas no

The CAS Registry Mumber 1517-47-1 includes 7 digits separated into 3 groups by hyphens. The first part of the number,starting from the left, has 4 digits, 1,5,1 and 7 respectively; the second part has 2 digits, 4 and 7 respectively.
Calculate Digit Verification of CAS Registry Number 1517-47:
(6*1)+(5*5)+(4*1)+(3*7)+(2*4)+(1*7)=71
71 % 10 = 1
So 1517-47-1 is a valid CAS Registry Number.

1517-47-1Relevant academic research and scientific papers

Visible-light-mediated deuteration of aldehydes with D2O via polarity-matched reversible hydrogen atom transfer

Dong, Jian-Yang,Xu, Wen-Tao,Yue, Fu-Yang,Song, Hong-Jian,Liu, Yu-Xiu,Wang, Qing-Min

supporting information, (2021/01/26)

Hydrogen/deuterium exchange at the formyl groups of aldehydes is the most direct way to synthesize deuterated aldehydes, which are of interest for labeling studies and drug discovery. Herein, we report a mild, general protocol for visible-light-mediated m

SYNTHESIS OF DEUTERATED ALDEHYDES

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Paragraph 0008; 0090, (2021/03/13)

Described are methods for preparing a deuterated aldehyde using N-heterocyclic carbene catalysts in a solvent comprising D2O. The methods may be used to convert a wide variety of aldehydes (e.g., aryl, alkyl, or alkenyl aldehydes) to C-1 deuterated aldehydes under mild reaction conditions without functionality manipulation.

VISIBLE-LIGHT MEDIATED ORGANOPHOTOREDOX CATALYTIC DEUTERATION OF AROMATIC AND ALIPHATIC ALDEHYDES

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Paragraph 0052; 0056; 00103; 00117-00118, (2021/06/22)

Described are methods for preparing a deuterated aldehyde using with a photocatalyst and a hydrogen atom transfer agent in a H2O free solvent comprising D2O and an organic solvent under an inert gas. The methods may be used to convert a wide variety of aldehydes (e.g., aryl, alkyl, or alkenyl aldehydes) to C-1 deuterated aldehydes under mild reaction conditions.

Selective oxidation of alcohol-d1to aldehyde-d1using MnO2

Kitsuwa, Kohei,Kumadaki, Katsushi,Nakayama, Atsushi,Okamura, Hironori,Ozawa, Keita,Shinada, Tetsuro,Tamura, Yusaku,Yamamoto, Yuki,Yasuno, Yoko

, p. 28530 - 28534 (2021/09/22)

The selective oxidation of alcohol-d1to prepare aldehyde-d1was newly developed by means of NaBD4reduction/activated MnO2oxidation. Various aldehyde-d1derivatives including aromatic and unsaturated ald

Visible light driven deuteration of formyl C-H and hydridic C(sp3)-H bonds in feedstock chemicals and pharmaceutical molecules

Cao, Hui,Chen, Wei,Chew, Junhong,Kuang, Yulong,Shi, Xiangcheng,Tang, Haidi,Wu, Jie

, p. 8912 - 8918 (2020/09/09)

Deuterium labelled compounds are of significant importance in chemical mechanism investigations, mass spectrometric studies, diagnoses of drug metabolisms, and pharmaceutical discovery. Herein, we report an efficient hydrogen deuterium exchange reaction u

Formyl-selective deuteration of aldehydes with D2O: Via synergistic organic and photoredox catalysis

Dong, Jianyang,Wang, Xiaochen,Wang, Zhen,Song, Hongjian,Liu, Yuxiu,Wang, Qingmin

, p. 1026 - 1031 (2020/02/11)

Formyl-selective deuteration of aldehydes is of high interest for labeling purposes and for optimizing properties of drug candidates. Herein, we report a mild general method for formyl-selective deuterium labeling of aldehydes with D2O, an inexpensive deuterium source, via a synergistic combination of light-driven, polyoxometalate-facilitated hydrogen atom transfer and thiol catalysis. This highly efficient, scalable reaction showed excellent deuterium incorporation, a broad substrate scope, and excellent functional group tolerance and selectivity and is therefore a practical method for late-stage modification of synthetic intermediates in medicinal chemistry and for generating libraries of deuterated compounds.

Deuteration of Formyl Groups via a Catalytic Radical H/D Exchange Approach

Zhang, Yueteng,Ji, Peng,Dong, Yue,Wei, Yongyi,Wang, Wei

, p. 2226 - 2230 (2020/02/28)

H/D exchange at formyl groups represents the straightforward approach to C-1 deuterated aldehydes. This transformation has been recently realized by transition metal and NHC carbene catalysis. Mechanistically, all of these processes involve an ionic pathway. Herein, we report a distinct photoredox catalytic, visible light mediated neutral radical approach. Selective control of highly reactive acyl radical in the energy barrier surmountable, reversible reaction enables driving the formation of deuterated products when an excess of D2O is employed. The power of the H/D exchange process has been demonstrated for not only aromatic aldehydes but also aliphatic substrates, which have been difficult in transitional metal catalyzed H/D exchange reactions, and for selective late-stage deuterium incorporation into complex structures with uniformly high deuteration level (>90%).

Deoxygenative Deuteration of Carboxylic Acids with D2O

Zhang, Muliang,Yuan, Xiang-Ai,Zhu, Chengjian,Xie, Jin

supporting information, p. 312 - 316 (2018/11/25)

We report a general, practical, and scalable means of preparing deuterated aldehydes from aromatic and aliphatic carboxylic acids with D2O as an inexpensive deuterium source. The use of Ph3P as an O-atom transfer reagent can facilitate the deoxygenation of aromatic acids, while Ph2POEt is a better O-atom transfer reagent for aliphatic acids. The highly precise deoxygenation of complex carboxylic acids makes this protocol promising for late-stage deoxygenative deuteration of natural product derivatives and pharmaceutical compounds.

Method for preparing deuterated aldehyde from carboxylic acid using iridium complex as catalyst under irradiation of blue light

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Paragraph 0040; 0041, (2019/02/13)

A method for preparing deuterated aldehyde from carboxylic acid using an iridium complex as a catalyst under the irradiation of blue light is as follows: aromatic carboxylic acid (ArCOOH) used as a raw material and triphenylphosphine used as a deoxidizing agent are irradiated by blue light in a solution of dichloromethane and heavy water, in the atmosphere of argon, under the condition of dipotassium phosphate used as alkali and using [Ir(dF(CF3)ppy)2(dtbbpy)]PF6 as a photocatalyst and thiophenol 2,4,6-triisopropylbenzenethiol as an organic small molecule catalyst to obtain a deuterated aromatic aldehyde compound; or aliphatic carboxylic acid (Alk-COOD) used as the raw material and diphenylethoxyphosphine used as a deoxidizing agent are irradiated by blue light in a solution of toluene, inthe atmosphere of argon and under the condition of 2,6-lutidine used as alkali to obtain a deuterated fatty aldehyde compound.

Palladium/Rhodium Cooperative Catalysis for the Production of Aryl Aldehydes and Their Deuterated Analogues Using the Water–Gas Shift Reaction

Ibrahim, Malek Y. S.,Denmark, Scott E.

supporting information, p. 10362 - 10367 (2018/07/31)

A novel Pd/Rh dual-metallic cooperative catalytic process has been developed to effect the reductive carbonylation of aryl halides in moderate to good yield. In this reaction, water is the hydride source, and CO serves both as the carbonyl source and the terminal reductant through the water–gas shift reaction. The catalytic generation of the Rh hydride allows for the selective formation of highly hindered aryl aldehydes that are inaccessible through previously reported reductive carbonylation protocols. Moreover, aldehydes with deuterated formyl groups can be efficiently and selectively synthesized using D2O as a cost-effective deuterium source without the need for presynthesizing the aldehyde.

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