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    首页 分子通

    | 133986-36-4

    分子结构分类

    有机化合物 - 有机氧化合物
    中文名称
    ——
    中文别名
    ——
    英文名称
    ——
    英文别名
    ——
    化学式
    CAS
    133986-36-4
    化学式
    C13H27BO
    mdl
    ——
    分子量
    210.168
    InChiKey
    IPXFUOMGJBOTJJ-VXGBXAGGSA-N
    BEILSTEIN
    ——
    EINECS
    ——
    • 物化性质
    • 计算性质
    • ADMET
    • 安全信息
    • SDS
    • 制备方法与用途
    • 上下游信息
    • 反应信息
    • 文献信息
    • 表征谱图
    • 同类化合物
    • 相关功能分类
    • 相关结构分类

    计算性质

    • 辛醇/水分配系数(LogP):
      4.25
    • 重原子数:
      15.0
    • 可旋转键数:
      4.0
    • 环数:
      1.0
    • sp3杂化的碳原子比例:
      1.0
    • 拓扑面积:
      9.23
    • 氢给体数:
      0.0
    • 氢受体数:
      1.0

    反应信息

    • 作为反应物:
      描述:
      sodium hydroxide 作用下, 以 甲醇 为溶剂, 反应 24.0h, 生成 trans-(2-methylcyclopentyl)ethyne
      参考文献:
      名称:
      Chiral synthesis via organoboranes. 29. A general synthesis of .alpha.-chiral monosubstituted acetylenes and their trimethylsilyl derivatives from enantiomerically pure boronic esters
      摘要:
      The procedure for the synthesis of RC = CH by the iodination of [R3BC = CH]-Li+ is impractical for the synthesis of the corresponding chiral derivatives, R*C = CH, due to the unavailability of the required R*3B compounds. RThxBOMe and R*ThxBOCH3, now readily available by established procedures, serve handily for the syntheses of RC = CR' and R*C = CR respectively from LiC = CR, but fail for the syntheses of either RC = CH or R*C = CH, in reasonable yield, from LiC = CH. Fortunately, this difficulty can be circumvented by utilizing LiC = CSiMe3. Indeed, treatment of enantiomerically pure monoalkylthexylborinates, R*ThxBOCH3, readily prepared from enantionerically pure boronic esters, with LiC = CSiMe3 forms an ate complex which readily undergoes the desired iodine-induced rearrangement, forming alpha-chiral (trimethylsilyl)acetylenes, R*C = CSiMe3. The (trimethylsilyl)acetylenes are easily desilylated to afford the corresponding alpha-chiral terminal acetylenes, R*C = CH, in yields of approximately 70% and essentially 100% enantiomeric excess (greater-than-or-equal-to 99%). These intermediates, R*C = CSiMe3 and R*C = CH, can be readily converted by simple procedures into a wide variety of pure enantiomers: R*CH = CH2, R*CH2CHO, R*CO2H, R*CH2CO2H, R*COCO2R, etc. Since both (+)- and (-)-alkylboronic esters are now readily available in essentially 100% enantiomeric purity, it is now possible to synthesize (+)- and (-)-alpha-chiral monosubstituted acetylenes and their trimethylsilyl derivatives in very high enantiomeric purities. This provides the first general, efficient synthesis of these valuable synthons in such high enantiomeric purities.
      DOI:
      10.1021/jo00004a030
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