1-(4-trifluoromethylphenyl)cyclohex-2-en-1-ol | 60174-91-6
中文名称
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中文别名
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英文名称
1-(4-trifluoromethylphenyl)cyclohex-2-en-1-ol
英文别名
1-[4-(Trifluoromethyl)phenyl]cyclohex-2-en-1-ol
CAS
60174-91-6
化学式
C13H13F3O
mdl
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分子量
242.241
InChiKey
ZYPWJUHMQWVYPE-UHFFFAOYSA-N
BEILSTEIN
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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):3.3
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重原子数:17
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可旋转键数:1
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环数:2.0
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sp3杂化的碳原子比例:0.38
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拓扑面积:20.2
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氢给体数:1
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氢受体数:4
反应信息
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作为反应物:描述:1-(4-trifluoromethylphenyl)cyclohex-2-en-1-ol 在 tris(dibenzylideneacetone)dipalladium(0) chloroform complex 、 (R)-N-((S)-(2,7-di-tert-butyl-5-(diphenylphosphanyl)-9,9-dimethyl-9H-xanthen-4-yl)(3,5- difluorophenyl)methyl)-2-methylpropane-2-sulfinamide 、 2-硝基苯硫氯 、 三乙胺 作用下, 以 二氯甲烷 、 邻二甲苯 为溶剂, 反应 50.0h, 生成 ethyl 2-((3aR,7aS,E)-1-tosyl-6-(4-(trifluoromethyl)phenyl)-1,3,3a,4,5,7a-hexahydro-2H-indol-2-ylidene)acetate参考文献:名称:PC-Phos 启用催化钯-杂烯丙基不对称环加成摘要:不对称环加成反应是有机化学中快速构建对映体富集环状基序的最有力工具。与通过钯-三亚甲基甲烷 (Pd-TMM) 中间体进行的成熟环加成反应形成鲜明对比的是,杂烯丙基阳离子的杂 (3 + 2) 环加成仍然很少见,这主要是由于它们的热禁性质。据我们所知,目前还没有报道过导致对映体富集的杂环的不对称版本的例子。在这里,我们启用了第一个催化不对称 (3 + 2) 环加成的例子,即通过以 C-N 或 C –O键形成,以高产率提供高度取代或稠合的吡咯烷和四氢呋喃环,具有出色的区域选择性、非对映选择性和对映选择性。通过引入二叔丁基或/和 3,5-二氟苯基是实现优异催化反应性和对映选择性的重要组成部分。DOI:10.1021/jacs.2c09799
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作为产物:参考文献:名称:3,4-二芳基取代的六氢-1H-吲哚的合成摘要:利用包括烯丙基阳离子介导的亲核加成和分子内环化反应的两步方案,可以有效地合成3,4-二芳基取代的六氢-1H-吲哚并具有出色的非对映选择性。环化产物的N-芳基磺酰基保护基很容易被除去,以提供具有卤素取代和C C双键保留的游离胺。DOI:10.1016/j.tetlet.2018.04.008
文献信息
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Lewis Acids Promoted 3 + 2 Cycloaddition of Oxaziridines and Cyclic Allylic Alcohols through Carbonyl Imine Intermediates作者:Erbao Zhao、Feilong Zhou、Yujun ZhaoDOI:10.1021/acs.joc.9b00246日期:2019.4.5Syntheses of isoxazolidines through the carbonyl imine intermediates are currently limited to monosubstituted olefin substrates. Herein, we reported syntheses of novel bicyclic isoxazolidine-containing compounds through 1,3-dipolar cycloaddition reactions using cyclic allylic alcohols as substrates, which proved challenging in previous reports. Generally, the reaction yields range from good to high
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Pt-Catalyzed Oxidative Rearrangement of Cyclic Tertiary Allylic Alcohols to Enones Using Aqueous Hydrogen Peroxide作者:Takashi Nagamine、Yoshihiro Kon、Kazuhiko SatoDOI:10.1246/cl.2012.744日期:2012.7.5An oxidative rearrangement of cyclic tertiary allylic alcohols to β-disubstituted α,β-unsaturated ketones by Pt black catalyst with aqueous hydrogen peroxide is described. The reaction proceeds under organic solvent- and halide-free conditions and gives only water as a coproduct. The Pt black catalyst is commercially available and can be reused at least four times.
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Boronic Acid Catalyzed Friedel−Crafts Reactions of Allylic Alcohols with Electron-Rich Arenes and Heteroarenes.作者:J. Adam McCubbin、Hamidreza Hosseini、Oleg V. KrokhinDOI:10.1021/jo9023073日期:2010.2.5allylic alcohols with a variety of electron-rich aromatic and heteroaromatic substrates under ambient conditions. The commercially available catalyst is recoverable and air and moisture stable, and the reaction produces water as the only byproduct.
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Palladium-Catalyzed Oxidative Rearrangement of Tertiary Allylic Alcohols to Enones with Oxygen in Aqueous Solvent作者:Jingjie Li、Ceheng Tan、Jianxian Gong、Zhen YangDOI:10.1021/ol502578h日期:2014.10.17A one-pot procedure for Pd(TFA)2-catalyzed 1,3-isomerization of tertiary allylic alcohols to secondary allylic alcohols followed by a Pd(TFA)2/neocuproine-catalyzed oxidative reaction to β-disubstituted-α,β-unsaturated kenones was developed.一锅法用于Pd(TFA)2催化叔烯丙基醇的1,3-异构化为仲烯丙基醇,然后进行Pd(TFA)2 /新嘌呤催化的氧化反应生成β-二取代-α,β-不饱和开发了酮酮。
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Iodine-Promoted Metal-Free Aromatization: Synthesis of Biaryls, Oligo<i>p</i>-Phenylenes and A-Ring Modified Steroids作者:Victoriano Domingo、Consuelo Prieto、Alexis Castillo、Lucia Silva、José F. Quílez del Moral、Alejandro F. BarreroDOI:10.1002/adsc.201500303日期:2015.10.12efficient procedures based on the use of iodine for the synthesis of biaryls from arylcyclohexenols or arylcyclohexanols using sub-stoichiometric/catalytic iodine and dimethyl sulfoxide (DMSO) as oxidant. Heteroarylcyclohexanols also produced the corresponding biaryl products. It was proven that biphenyl can also be efficiently obtained when the quantity of iodine was reduced to 0.05 equiv. The method
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