3-cyano-1-deuteriobenzaldehyde | 145351-38-8

• 分子结构分类: 有机化合物 - 苯类化合物 - 苯和取代衍生物
• 英文名称: 3-cyano-1-deuteriobenzaldehyde
• 英文别名: 3-formylbenzonitrile-α-d₁；3-Deuteriocarbonylbenzonitrile
• CAS: 145351-38-8
• 化学式: C₈H₅NO
• 分子量: 132.126
• InChiKey: HGZJJKZPPMFIBU-RAMDWTOOSA-N

计算性质

• 辛醇/水分配系数(LogP)：
  1.2
• 重原子数：
  10
• 可旋转键数：
  1
• 环数：
  1.0
• sp3杂化的碳原子比例：
  0.0
• 拓扑面积：
  40.9
• 氢给体数：
  0
• 氢受体数：
  2

反应信息

• 作为产物：
  描述：

  3-氰基苯甲醛 在 甲醇 、 manganese(IV) oxide 、 硼氘化钠 作用下， 以 二氯甲烷 为溶剂， 反应 2.17h， 生成 3-cyano-1-deuteriobenzaldehyde
  参考文献：
  名称：

  使用 MnO2 将醇-d1 选择性氧化为醛-d1

  摘要：

  醇-d 1的选择性氧化制备醛-d 1是通过NaBD 4还原/活化的MnO 2氧化的新方法。各种醛-d 1衍生物，包括芳族和不饱和醛-d 1都可以以高氘掺入率（高达 98% D）制备。在温和条件下，底物中的卤素（氯化物、溴化物和碘化物）、烯烃、炔烃、酯、硝基和氰基是可耐受的。

  DOI：

  10.1039/d1ra05405h

文献信息

• [EN] SYNTHESIS OF DEUTERATED ALDEHYDES<br/>[FR] SYNTHÈSE D'ALDÉHYDES DEUTÉRÉS
  申请人：UNIV ARIZONA

  公开号：WO2021045879A1

  公开（公告）日：2021-03-11

  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.

  描述了使用包含重水(D2O)的溶剂中的N-杂环卡宾催化剂来制备氘代乙醛的方法。这些方法可以在温和的反应条件下，不改变功能团的情况下，将各种乙醛（例如，芳香醛、脂肪醛或不饱和脂肪醛）转化为C-1位置氘代的乙醛。
• One-step facile synthesis of deuterium labeled aldehydes from tertiary amides using Cp2Zr(D)Cl
  作者：Jared T. Spletstoser、Jonathan M. White、Gunda I. Georg

  DOI：10.1016/j.tetlet.2004.02.030

  日期：2004.3

  The synthesis of deuterium labeled aldehydes was accomplished in an expedient and facile manner through the reduction of amides using commercially available Cp2Zr(D)Cl. The reactions proceeded rapidly (ca. 15 min) and in high yields (70–99%).

  氘标记的醛的合成通过使用市售的Cp 2 Zr（D）Cl还原酰胺以方便且简便的方式完成。反应进行迅速（约15分钟），产率高（70-99％）。
• Formyl-selective deuteration of aldehydes with D₂O <i>via</i> synergistic organic and photoredox catalysis
  作者：Jianyang Dong、Xiaochen Wang、Zhen Wang、Hongjian Song、Yuxiu Liu、Qingmin Wang

  DOI：10.1039/c9sc05132e

  日期：——

  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

  醛的甲酰基选择性氘化对于标记目的和优化候选药物的性质具有重要意义。在这里，我们报告了一种温和的通用方法，通过光驱动、多金属氧酸盐促进的氢原子转移和硫醇催化的协同组合，用廉价的氘源D 2 O对醛进行甲酰基选择性氘标记。这种高效、可扩展的反应显示出优异的氘掺入、广泛的底物范围以及优异的官能团耐受性和选择性，因此是药物化学合成中间体后期修饰和生成氘代化合物库的实用方法。
• Photodeuterierung von benzaldehyd und substituierten benzaldehyden
  作者：Albert Defoin、Rosalie Defoin-Straathann、Hans Jochen Kuhn

  DOI：10.1016/s0040-4020(01)96882-6

  日期：1984.1

  In the presence of deuterium oxide benzaldehyde () and substituted benzaldehydes likewise possessing lowest triplet states of (n,w*) character yield formyl-deuteriated benzaldehydes by fast and efficient photoreactions. Quantum yields of formation of 7-deuterio benzaldehyde in solvent acetonitrile-deuterium oxide 3:1 are 0.57 at 313 nm), 0.54 at 331 nm. 0.62 at 365 nm, and in acetone-deuterium oxide

  在氧化氘苯甲醛（）和具有最低（n，w *）特征的三重态的取代苯甲醛的存在下，通过快速和有效的光反应也可制得甲酰基-氘代苯甲醛。在溶剂乙腈-氧化氘3：1中形成7-氘代苯甲醛的量子产率在313 nm下为0.57，在331 nm下为0.54。在365 nm处为0.62，在丙酮-氘化氧化物3：1中在313 nm下为0.87。在334 nm处为0.83，在365 nm处为0.91。副产品。主要是内消旋和dl-二氢安息香和安息香。仅在很小的程度上形成。在CIDNP测量的基础上，讨论了光氘的机理。
• Mild and Selective Hydrozirconation of Amides to Aldehydes Using Cp₂Zr(H)Cl:  Scope and Mechanistic Insight
  作者：Jared T. Spletstoser、Jonathan M. White、Ashok Rao Tunoori、Gunda I. Georg

  DOI：10.1021/ja066362+

  日期：2007.3.1

  An investigation of the use of Cp2Zr(H)Cl (Schwartz's reagent) to reduce a variety of amides to the corresponding aldehydes under very mild reaction conditions and in high yields is reported. A range of tertiary amides, including Weinreb's amides, can be converted directly to the corresponding aldehydes with remarkable chemoselectivity. Primary and secondary amides proved to be viable substrates for reduction as well, although the yields were somewhat diminished as compared to the corresponding tertiary amides. Results from NMR experiments suggested the presence of a stable, 18-electron zirconacycle intermediate that presumably affords the aldehyde upon water or silica gel workup. A series of competition experiments revealed a preference of the reagent for substrates in which the lone pair of the nitrogen is electron releasing and thus more delocalized across the amide bond by resonance. This trend accounts for the observed excellent selectivity for tertiary amides versus esters. Experiments regarding the solvent dependence of the reaction suggested a kinetic profile similar to that postulated for the hydrozirconation of alkenes and alkynes. Addition of p-anisidine to the reaction intermediate resulted in the formation of the corresponding imine mimicking the addition of water that forms the aldehyde.