4-(4-cyanophenyl)pent-4-enoic acid | 1384163-64-7
中文名称
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中文别名
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英文名称
4-(4-cyanophenyl)pent-4-enoic acid
英文别名
——
CAS
1384163-64-7
化学式
C12H11NO2
mdl
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分子量
201.225
InChiKey
MODQFUDVUOGXDO-UHFFFAOYSA-N
BEILSTEIN
——
EINECS
——
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物化性质
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计算性质
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ADMET
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安全信息
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SDS
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制备方法与用途
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上下游信息
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文献信息
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表征谱图
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同类化合物
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相关功能分类
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相关结构分类
计算性质
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辛醇/水分配系数(LogP):2.4
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重原子数:15
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可旋转键数:4
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环数:1.0
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sp3杂化的碳原子比例:0.17
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拓扑面积:61.1
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氢给体数:1
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氢受体数:3
反应信息
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作为反应物:描述:4-(4-cyanophenyl)pent-4-enoic acid 在 perixanthenoxanthene 、 1-(fluorosulfonyl)-3-methyl-2-(4-trifluoromethylphenyl)-1H-benzimidazole triflate 作用下, 以 1,4-二氧六环 为溶剂, 以74 %的产率得到(2-(4-cyanophenyl)-5-oxotetrahydrofuran-2-yl)methanesulfonyl fluoride参考文献:名称:FSO2 Radical-Initiated Photoredox Cyclization of 4-Enoic Acids to Functionalized γ-Lactones摘要:摘要事实证明,在分子中加入磺酰氟基团可有效增强其生物活性或引入新功能。本文报告了一种无过渡金属和可见光介导的不饱和羧酸自由基串联环化反应。这提供了高效获得 FSO2 功能化 γ 内酯的简便途径,而γ 内酯是广泛存在于生物活性分子中的关键结构基团。DOI:10.1055/s-0042-1751535
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作为产物:描述:参考文献:名称:FSO2 Radical-Initiated Photoredox Cyclization of 4-Enoic Acids to Functionalized γ-Lactones摘要:摘要事实证明,在分子中加入磺酰氟基团可有效增强其生物活性或引入新功能。本文报告了一种无过渡金属和可见光介导的不饱和羧酸自由基串联环化反应。这提供了高效获得 FSO2 功能化 γ 内酯的简便途径,而γ 内酯是广泛存在于生物活性分子中的关键结构基团。DOI:10.1055/s-0042-1751535
文献信息
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Cooperativity within the catalyst: alkoxyamide as a catalyst for bromocyclization and bromination of (hetero)aromatics作者:Haripriyo Mondal、Md Raja Sk、Modhu Sudan MajiDOI:10.1039/d0cc04673f日期:——Alkoxyamide has been reported as a catalyst for the activation of N-bromosuccinimide to perform bromocyclization and bromination of a wide range of substrates in a lipophilic solvent, where adequate suppression of the background reactions was observed. The key feature of the active site is the alkoxy group attached to the sulfonamide moiety, which facilitates the acceptance as well as the delivery
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Bifunctional Catalyst Promotes Highly Enantioselective Bromolactonizations To Generate Stereogenic C–Br Bonds作者:Daniel H. Paull、Chao Fang、James R. Donald、Andrew D. Pansick、Stephen F. MartinDOI:10.1021/ja305117m日期:2012.7.11highly enantioselective bromolactonizations of a number of structurally distinct unsaturated acids. Like some known catalysts, this catalyst promotes highly enantioselective bromolactonizations of 4- and 5-aryl-4-pentenoic acids, but it also catalyzes the highly enantioselective bromolactonizations of 5-alkyl-4(Z)-pentenoic acids. These reactions represent the first catalytic bromolactonizations of alkyl-substituted
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Enantioselective Halolactonization Reactions using BINOL-Derived Bifunctional Catalysts: Methodology, Diversification, and Applications作者:Daniel W. Klosowski、J. Caleb Hethcox、Daniel H. Paull、Chao Fang、James R. Donald、Christopher R. Shugrue、Andrew D. Pansick、Stephen F. MartinDOI:10.1021/acs.joc.8b00490日期:2018.6.1A general protocol is described for inducing enantioselective halolactonizations of unsaturated carboxylic acids using novel bifunctional organic catalysts derived from a chiral binaphthalene scaffold. Bromo- and iodolactonization reactions of diversely substituted, unsaturated carboxylic acids proceed with high degrees of enantioselectivity, regioselectivity, and diastereoselectivity. Notably, these描述了使用衍生自手性双萘支架的新型双官能有机催化剂诱导不饱和羧酸的对映选择性卤代内酯化的通用方案。各种取代的不饱和羧酸的溴代和碘代内酯化反应以高度的对映选择性,区域选择性和非对映选择性进行。值得注意的是,这些BINOL衍生的催化剂是第一个通过5- exo模式环化诱导5-烷基-4(Z)-烯烃的溴代和碘代内酯化的反应,从而生成内酯,其中内酯生成了新的碳-卤素键非对映和对映选择性高的中心。6-取代的5(Z)-烯烃酸的碘内酯化也通过6- exo发生环化以提供具有出色对映选择性的δ-内酯。已开发出这种卤代内酯化方法的几个著名应用,用于Z-烯烃的不对称化,动力学拆分和环氧化。这些反应的实用性通过将其应用于合成基伯得隆C的F环亚基的前体以及迄今为止报道的最短的(+)-disparlure催化,对映选择性合成而得到证明。
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4-(Dimethylamino)pyridine-catalysed iodolactonisation of γ,δ-unsaturated carboxylic acids作者:Chuisong Meng、Zhihui Liu、Yuxiu Liu、Qingmin WangDOI:10.1039/c5ob00806a日期:——
4-(Dimethylamino)pyridine functioned as an excellent catalyst for iodolactonization reactions of γ,δ-unsaturated carboxylic acids, affording γ-lactones, δ-lactones, or both.
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Development of Nitrolactonization Mediated by Iron(III) Nitrate Nonahydrate作者:Tomoyuki Yoshimura、Yuki Umeda、Risako Takahashi、Jun-ichi MatsuoDOI:10.1248/cpb.c20-00645日期:2020.12.1The nitrolactonization of alkenyl carboxylic acids mediated by Fe(NO3)3·9H2O has been developed. Nitrolactones were obtained in up to 93% yield by treatment of alkenyl carboxylic acids with Fe(NO3)3·9H2O. Mechanistic studies disclosed that the reaction proceeded through a radical intermediate generated from addition of NO2 to alkenyl carboxylic acids. Graphical Abstract Fullsize Image
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