2-(3-methylbut-2-en-1-yl)benzaldehyde | 100841-73-4
中文名称
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中文别名
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英文名称
2-(3-methylbut-2-en-1-yl)benzaldehyde
英文别名
2-(3-methyl-but-2-enyl)-benzaldehyde;2-(3-Methylbut-2-enyl)benzaldehyde
CAS
100841-73-4
化学式
C12H14O
mdl
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分子量
174.243
InChiKey
OCSYHXIXRDIURJ-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
物化性质
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沸点:267.4±9.0 °C(Predicted)
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密度:0.985±0.06 g/cm3(Predicted)
计算性质
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辛醇/水分配系数(LogP):3.7
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重原子数:13
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可旋转键数:3
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环数:1.0
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sp3杂化的碳原子比例:0.25
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拓扑面积:17.1
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氢给体数:0
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氢受体数:1
反应信息
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作为反应物:参考文献:名称:氢键供体与氯化氢的协同催化可实现高度对映选择性的原环化反应摘要:氯化氢 (HCl) 和手性双氢键供体 (HBD) 的协同不对称催化已成功应用于各种简单烯基醛的高度对映选择性 Prins 环化反应。最佳的手性催化剂被设计为能够承受强酸性反应条件,并且发现与单独使用 HCl 催化的反应相比,其速率加速了 2 个数量级。我们提出,强无机酸和手性氢键供体催化剂的组合可能代表了在需要高酸性条件的反应中诱导对映选择性的一般策略。DOI:10.1021/jacs.1c10890
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作为产物:参考文献:名称:氢键供体与氯化氢的协同催化可实现高度对映选择性的原环化反应摘要:氯化氢 (HCl) 和手性双氢键供体 (HBD) 的协同不对称催化已成功应用于各种简单烯基醛的高度对映选择性 Prins 环化反应。最佳的手性催化剂被设计为能够承受强酸性反应条件,并且发现与单独使用 HCl 催化的反应相比,其速率加速了 2 个数量级。我们提出,强无机酸和手性氢键供体催化剂的组合可能代表了在需要高酸性条件的反应中诱导对映选择性的一般策略。DOI:10.1021/jacs.1c10890
文献信息
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Total synthesis of artochamins F, H, I, and J through cascade reactions作者:K.C. Nicolaou、Troy Lister、Ross M. Denton、Christine F. GelinDOI:10.1016/j.tet.2008.02.108日期:2008.5A concise and efficient cascade-based total synthesis of artochamins F, H, I, and J is described. The potential biogenetic connection between artochamin F, or a derivative thereof, and artochamins H, I, and J, through an unusual formal [2+2] cycloaddition process, was shown to be feasible. An alternative mechanism for this transformation is also proposed.
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Phenylsulfonyl Ene−Allenes as Efficient Precursors to Bicyclic Systems via Intramolecular [2 + 2]-Cycloaddition Reactions作者:Albert Padwa、Helmut Lipka、Scott H. Watterson、S. Shaun MurphreeDOI:10.1021/jo0345796日期:2003.8.1stereospecificity involves initial diradical formation, followed by a rapid ring closure to the more stable cis-fused ring system. The tether may be equipped with heteroatoms, allowing for the formation of fused heterocycles (e.g., 61), and the cycloaddition can be facilitated by the introduction of sterically bulky groups and/or by conformational rigidity to the tether. Other modes of cyclization were observed制备了具有双键的双苯基磺酰基丙二烯丙二烯衍生物,该双键被束缚在丙二烯的α-位或γ-位。这些底物在未活化的异丙苯双键上进行了高度区域和立体定向的热[2 + 2]-环加成反应,在α系链的丙二烯和近端加合物(即25)的情况下,形成了远端的环加合物(即57)。的情况下,γ系链的烯。所观察到的立体特异性的机理原理包括最初的双自由基形成,随后是快速的环闭合至更稳定的顺式稠合的环系统。系链可以装备有杂原子,从而允许稠合的杂环的形成(例如61),并且可以通过引入空间上庞大的基团和/或通过对系链的构象刚性来促进环加成。在苯亚磺酸钠或路易斯酸的存在下观察到其他环化方式,在这种情况下,极性机理占优势。对于[4 + 2]-环加成,其化学选择性相反,后者更喜欢与乙烯基砜部分接合,而与系链是连接到丙二烯的α-位还是gamma位无关。
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A Photocatalytic Regioselective Direct Hydroaminoalkylation of Aryl-Substituted Alkenes with Amines作者:Natalia A. Larionova、Jun Miyatake Ondozabal、Emily G. Smith、Xacobe C. CambeiroDOI:10.1021/acs.orglett.1c01715日期:2021.7.16hydroaminoalkylation of cinnamate esters has been developed. The reaction involves the regioselective addition of α-aminoalkyl radicals generated from aniline derivatives or aliphatic amines to the α-position of unsaturated esters. The scope of aromatic alkenes was extended to styrenes undergoing hydroaminoalkylation with anti-Markovnikov selectivity, which confirms the importance of the aromatic group
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PHOTOCHEMICAL METHODS OF MAKING CYCLOBUTANE BORONATES AND RELATED COMPOUNDS申请人:Wisconsin Alumni Research Foundation公开号:US20190040085A1公开(公告)日:2019-02-07The present technology relates generally cyclobutane boronates, including methods of preparation by exposing a mixture of a compound of Formula I in a solvent and a catalytic amount of a visible light sensitizer to provide a compound of Formula II, stereoisomers thereof, and/or salts of any of the foregoing. The cyclobutane boronate compounds are useful intermediates in the preparation of pharmaceutically active compounds as well as other other useful compounds.
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Carbonyl–Olefin Metathesis Catalyzed by Molecular Iodine作者:Uyen P. N. Tran、Giulia Oss、Martin Breugst、Eric Detmar、Domenic P. Pace、Kevin Liyanto、Thanh V. NguyenDOI:10.1021/acscatal.8b03769日期:2019.2.1The carbonyl–olefin metathesis reaction could facilitate rapid functional group interconversion and allow construction of complicated organic structures. Herein, we demonstrate that elemental iodine, a very simple catalyst, can efficiently promote this chemical transformation under mild reaction conditions. Our mechanistic studies revealed intriguing aspects of the activation mode via molecular iodine
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