methyl 3-(4-cyanophenyl)propiolate | 1032041-58-9
中文名称
——
中文别名
——
英文名称
methyl 3-(4-cyanophenyl)propiolate
英文别名
Methyl 3-(4-cyanophenyl)prop-2-ynoate
CAS
1032041-58-9
化学式
C11H7NO2
mdl
MFCD13191992
分子量
185.182
InChiKey
MPXFSOLUZRIVSN-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
物化性质
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熔点:108 °C(Solv: hexane (110-54-3))
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沸点:323.9±25.0 °C(Predicted)
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密度:1.21±0.1 g/cm3(Predicted)
计算性质
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辛醇/水分配系数(LogP):2.1
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重原子数:14
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可旋转键数:2
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环数:1.0
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sp3杂化的碳原子比例:0.09
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拓扑面积:50.1
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氢给体数:0
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氢受体数:3
反应信息
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作为反应物:描述:methyl 3-(4-cyanophenyl)propiolate 在 12-冠醚-4 、 苯基锂 作用下, 以 四氢呋喃 、 乙醇 为溶剂, 反应 2.75h, 生成 (Z)-3-(4-cyanophenyl)-2-(dimethyl(phenyl)silyl)-N-methyl-3-(4,4,5,5-tetramethyl-1,3,2-dioxaborolan-2-yl)acrylamide参考文献:名称:炔丙基酰胺的布朗斯台德碱介导的区域和立体选择性反式-硅烷化:获得1,2-Vinylborasilanes摘要:报道了一种使用苯基锂,二甲基苯基甲硅烷基萘烷硼烷和炔丙基酰胺制备β-硼基-α-甲硅烷基芳基丙烯酰胺的简便方法。该无过渡金属反应的关键特征是芳基仲炔丙基酰胺的布朗斯台德碱去质子化反应产生路易斯碱,该碱激活了B-Si键,随后依次进行分子内的α-甲硅烷基化-反式-β-硼化。反应以完全的区域和立体选择性进行。各种各样的N-和芳基取代的炔丙基酰胺可以高收率提供反式1,2-乙烯基硼硅烷。邻位硼硅烷产物经历各种随后的化学选择性转化。DOI:10.1002/chem.201703774
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作为产物:描述:4-乙炔基苯甲腈 在 4,7-二苯基-1,10-菲罗啉 、 copper(l) chloride 作用下, 以 二甲基亚砜 为溶剂, 20.0 ℃ 、1.5 MPa 条件下, 反应 14.0h, 生成 methyl 3-(4-cyanophenyl)propiolate参考文献:名称:将CO2插入CH键中的无盐策略:炔烃的催化羟甲基化摘要:铜(I)催化剂可通过使用合适的有机碱将二氧化碳插入炔烃的C H键中,利用该有机碱在热力学上可实现对羧酸盐的氢化以及碱的再生。在催化氯化铜(I)/ 4,7-二苯基-1,10-菲咯啉,聚合物结合的三苯基膦和2,2,6,6-四甲基哌啶为碱的情况下,末端炔烃在15 bar CO下进行羧化反应2,室温。过滤后,可以在铑/钼催化剂下将炔羧酸铵氢化为伯醇和水,以再生胺碱。这证明了无盐整体工艺的可行性,在该工艺中,二氧化碳可充当CH功能中C1的基石。DOI:10.1002/chem.201800526
文献信息
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Palladium‐Catalyzed Regio‐ and Stereoselective Sulfonylation of Aryl Propiolates with Sulfonyl Hydrazides: Access to ( <i>E</i> )‐ <i>β</i> ‐Aryl Sulfonyl Acrylates作者:Huanfeng Jiang、Wuxin Yan、Jiuzhong Huang、Chaowei Tan、Lingzhi Zhan、Wanqing WuDOI:10.1002/adsc.201900456日期:2019.10.8An efficient method for the synthesis of (E)‐β‐aryl sulfonyl acrylates has been reported. This palladium‐catalyzed approach showed excellent regio‐ and stereoselectivity in the sulfonylation of aryl propiolates with sulfonyl hydrazides. Through this approach, a wide range of (E)‐β‐aryl sulfonyl acrylates were obtained in moderate to high yields.
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Synthesis and Rearrangement of Dewar Benzenes Into Biaryls: Experimental Evidence for Conrotatory Ring Opening作者:Štěpánka Janková、Martin Dračínský、Ivana Císařová、Martin KotoraDOI:10.1002/ejoc.200700916日期:2008.1Rearrangement of aryl-substituted Dewar benzenes into the corresponding biaryls may serve as an alternative pathway for synthesis of sterically hindered biaryls. The kinetic data obtained from thermal rearrangements of Dewar benzenes provide experimental evidence for the proposed orbital-symmetry-controlled electrocyclic ring opening. (© Wiley-VCH Verlag GmbH & Co. KGaA, 69451 Weinheim, Germany, 2008)
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Palladium-Catalyzed Multicomponent Synthesis of Fully Substituted Alkylidene Furanones作者:Ángel Rentería-Gómez、Rubén O. Torres-Ochoa、Rocío Gámez-Montaño、Qian Wang、Jieping ZhuDOI:10.1021/acs.orglett.0c02578日期:2020.9.4In the presence of a catalytic amount of Pd(OAc)2 and XantPhos, the three-component reaction of ynones, imines, and aryl iodides affords fully substituted alkylidene-furan-3(2H)-ones via a sequence of the Mannich reaction followed by chemo- and regioselective oxypalladation and reductive elimination. One carbon–oxygen and two carbon–carbon bonds are generated to afford the heterocycle in good to excellent
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Metal-free catalytic cascade to chromones: direct coupling of salicylaldehydes and activated alkynes triggered by aryloxyl radicals作者:Ping Wang、Zhongfeng Li、Shengli Cao、Honghua RaoDOI:10.1039/c5ra24634b日期:——The first intermolecular addition reaction of aryloxyl radicals to CC bonds was disclosed, which can afford biologically important chromone scaffolds via a PhNMe3I-catalyzed direct coupling of readily available salicylaldehydes and activated internal alkynes in only one step, and can tolerate a range of catalytically reactive functional groups.
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Carboxylic Acid Salts as Dual‐Function Reagents for Carboxylation and Carbon Isotope Labeling作者:Shuo Wang、Igor Larrosa、Hideki Yorimitsu、Gregory J. P. PerryDOI:10.1002/anie.202218371日期:2023.3.27The potassium salt of triphenylacetic acid is developed as a combined source of CO2 and base/metalating agent. This method avoids specialized equipment and is used in the carboxylation of a range of compound classes. This provides a mechanistically distinct approach to carboxylation that has also been applied in carbon isotope labeling.
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