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1,1'-oxybis(isochroman-7,1-diyl) acetate | 1611454-52-4

中文名称
——
中文别名
——
英文名称
1,1'-oxybis(isochroman-7,1-diyl) acetate
英文别名
——
1,1'-oxybis(isochroman-7,1-diyl) acetate化学式
CAS
1611454-52-4
化学式
C22H22O7
mdl
——
分子量
398.412
InChiKey
HVBREDQPQXKYSH-UHFFFAOYSA-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):
    3.4
  • 重原子数:
    29.0
  • 可旋转键数:
    4.0
  • 环数:
    4.0
  • sp3杂化的碳原子比例:
    0.36
  • 拓扑面积:
    80.29
  • 氢给体数:
    0.0
  • 氢受体数:
    7.0

上下游信息

  • 上游原料
    中文名称 英文名称 CAS号 化学式 分子量

反应信息

  • 作为产物:
    描述:
    isochroman-7-yl acetate 在 iron(II) triflate 、 2-((4R,5R)-1-((4-(tert-butyl)phenyl)sulfonyl)-4,5-diphenylimidazolidin-2-yl)-6-((4R,5R)-1-((4-(tert-butyl)phenyl)sulfonyl)-4,5-diphenylimidazolidin-2-yl)pyridine 、 氧气 作用下, 以 为溶剂, 60.0 ℃ 、101.33 kPa 条件下, 反应 16.0h, 以40%的产率得到1-oxoisochroman-7-yl acetate
    参考文献:
    名称:
    Dehydrogenative α-Oxygenation of Ethers with an Iron Catalyst
    摘要:
    Selective alpha-oxidation of ethers under aerobic conditions is a long-pursued transformation; however, a green and efficient catalytic version of this reaction remains challenging. Herein, we report a new family of iron catalysts capable of promoting chemoselective alpha-oxidation of a range of ethers with excellent mass balance and high turnover numbers under 1 atm of O-2 with no need for any additives. Unlike metalloenzymes and related biomimetics, the catalyst produces H-2 as the only byproduct. Mechanistic investigations provide evidence for an unexpected two-step reaction pathway, which involves dehydrogenative incorporation of O-2 into the ether to give a peroxobisether intermediate followed by cleavage of the peroxy bond to form two ester molecules, releasing stoichiometric H-2 gas in each step. The operational simplicity and environmental friendliness of this methodology affords a useful alternative for performing oxidation, while the unique ability of the catalyst in oxygenating a substrate via dehydrogenation points to a new direction for understanding metalloenzymes and designing new biomimetic catalysts.
    DOI:
    10.1021/ja502167h
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