4,8-Dimethyl-1-trimethylsilanyl-non-7-en-1-one | 142981-59-7

分子结构分类

有机化合物 - 脂质和类脂质分子 - 异戊烯醇脂质

中文名称

——

中文别名

——

英文名称

4,8-Dimethyl-1-trimethylsilanyl-non-7-en-1-one

英文别名

4,8-Dimethyl-1-trimethylsilylnon-7-en-1-one

4,8-Dimethyl-1-trimethylsilanyl-non-7-en-1-one化学式

CAS

142981-59-7

化学式

C₁₄H₂₈OSi

mdl

——

分子量

240.461

InChiKey

UTQNBVBGDOWEQL-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

4.6
重原子数：

16
可旋转键数：

7
环数：

0.0
sp3杂化的碳原子比例：

0.79
拓扑面积：

17.1
氢给体数：

0
氢受体数：

1

反应信息

作为反应物：

描述：

4,8-Dimethyl-1-trimethylsilanyl-non-7-en-1-one 在盐酸、 tetrabutylammonium tetrafluoroborate 作用下，以乙醇、二氯甲烷为溶剂，反应 0.17h，生成 4,8-dimethyl-7-nonenenitrile

参考文献：

名称：

Electrochemical oxidation of acylsilanes and their tosylhydrazones

摘要：

Oxidation potentials of acylsilanes were found to be much less positive than those of ketones and aldehydes. The effect of silicon is attributed to the rise of the HOMO level by the interaction between the C-Si sigma-orbital and the nonbonding p orbital of the carbonyl oxygen which in turn favors the electron transfer. Preparative electrochemical oxidation of acylsilanes proceeded smoothly, giving rise to facile cleavage of the C-Si bond and the introduction of nucleophiles such as alcohols, water, and carbamates onto the carbonyl carbon. Electrochemical properties of tosylhydrazones of acylsilanes were also investigated. A decrease in oxidation potential of tosylhydrazones caused by silyl substitution was found to be smaller than that for carbonyl compounds. Preparative electrochemical oxidation of tosylhydrazones of acylsilanes gave the corresponding nitriles with consumption of a catalytic amount of electricity.

DOI：

10.1021/jo00044a023

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文献信息

Electrochemical oxidation of acylsilanes and their tosylhydrazones

作者：Junichi Yoshida、Masanori Itoh、Shinichiro Matsunaga、Sachihiko Isoe

DOI：10.1021/jo00044a023

日期：1992.8

Oxidation potentials of acylsilanes were found to be much less positive than those of ketones and aldehydes. The effect of silicon is attributed to the rise of the HOMO level by the interaction between the C-Si sigma-orbital and the nonbonding p orbital of the carbonyl oxygen which in turn favors the electron transfer. Preparative electrochemical oxidation of acylsilanes proceeded smoothly, giving rise to facile cleavage of the C-Si bond and the introduction of nucleophiles such as alcohols, water, and carbamates onto the carbonyl carbon. Electrochemical properties of tosylhydrazones of acylsilanes were also investigated. A decrease in oxidation potential of tosylhydrazones caused by silyl substitution was found to be smaller than that for carbonyl compounds. Preparative electrochemical oxidation of tosylhydrazones of acylsilanes gave the corresponding nitriles with consumption of a catalytic amount of electricity.

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