[2-(烯丙氧基)苯基]甲醇 | 26906-01-4
中文名称
[2-(烯丙氧基)苯基]甲醇
中文别名
——
英文名称
2-allyloxybenzyl alcohol
英文别名
(2-(allyloxy)phenyl)methanol;[2-(Allyloxy)phenyl]methanol;(2-prop-2-enoxyphenyl)methanol
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)
CAS
26906-01-4
化学式
C10H12O2
mdl
MFCD08442406
分子量
164.204
InChiKey
YMNIXHJCEMKHML-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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沸点:97.5-98.0 °C(Press: 1 Torr)
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密度:1.056±0.06 g/cm3(Predicted)
计算性质
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辛醇/水分配系数(LogP):1.8
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重原子数:12
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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:0.2
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拓扑面积:29.5
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氢给体数:1
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氢受体数:2
安全信息
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海关编码:2909499000
SDS
上下游信息
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上游原料
中文名称 英文名称 CAS号 化学式 分子量 邻丙烯基氧基苯甲醛 2-(allyloxy)benzaldehyde 28752-82-1 C10H10O2 162.188 —— (2-allyloxybenzyloxy)-tert-butyldimethylsilane —— C16H26O2Si 278.467 —— Ethyl O-allylsalicylate 61493-61-6 C12H14O3 206.241 水杨醇 salicylic alcohol 90-01-7 C7H8O2 124.139 -
下游产品
中文名称 英文名称 CAS号 化学式 分子量 —— allyl o-methoxymethylphenyl ether 110731-13-0 C11H14O2 178.231 —— 2-[o-(hydroxymethyl)phenoxy]ethanol 98954-44-0 C9H12O3 168.192 —— 1-(allyloxy)-2-({[2-(allyloxy)benzyl]oxy}methyl)benzene 1413932-61-2 C20H22O3 310.393 —— (E)-6,9-dihydro-15H,17H-dibenzo[b,g][1,5,9]trioxacyclotridecine 1413932-68-9 C18H18O3 282.339 邻丙烯基氧基苯甲醛 2-(allyloxy)benzaldehyde 28752-82-1 C10H10O2 162.188 2-(烯丙氧基)苄溴 1-allyloxy-2-bromomethyl benzene 319918-15-5 C10H11BrO 227.101 1-(烯丙氧基)-2-(氯甲基)苯 1-(allyloxy)-2-(chloromethyl)benzene 153034-33-4 C10H11ClO 182.65 —— (2-allyloxybenzyloxy)-tert-butyldimethylsilane —— C16H26O2Si 278.467 —— 2-allyloxycinnamyl aldehyde 931093-68-4 C12H12O2 188.226 —— 1-(allyloxy)-2-({[2-(allyloxy)benzyl]sulfanyl}methyl)benzene 1413932-62-3 C20H22O2S 326.459 —— (Z)-6,9,15,17-tetrahydrodibenzo[b,g][1,9,5]dioxathiacyclotridecine 1413932-78-1 C18H18O2S 298.406 —— (E)-6,9-dihydro-15H,17H-dibenzo[b,g][1,9,5]dioxathiacyclotridecine 1413932-69-0 C18H18O2S 298.406 - 1
- 2
反应信息
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作为反应物:描述:[2-(烯丙氧基)苯基]甲醇 在 二(氰基苯)二氯化钯 、 sodium hydride 作用下, 以 甲苯 为溶剂, 反应 18.0h, 生成 (E)-1-(methoxymethyl)-2-(1-propenyloxy)benzene参考文献:名称:官能化芳基卡宾与双键的分子内加成反应摘要:通过重氮前体的光解在甲醇中生成具有不饱和邻位取代基(乙烯基氧基、1-丙烯氧基、烯丙基、2-丁烯基、2,4-戊二烯基)的芳基卡宾。发现分子间 OH 插入与双键的分子内加成竞争。与类似的分子间反应相比,三线态敏化强烈影响产物分布。根据 k S /k ST 和 k T /k TS 速率比对分子内过程的单线态和三线态成分进行剖析和评估。单线态芳基卡宾的分子内环加成反应效率很低,可能是由于需要围绕外环 C-CH: 键旋转。相比之下,相对于分子间类似物,三重芳基卡宾的非集中分子内加成强烈加速。最有可能的,DOI:10.1021/ja00010a038
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作为产物:参考文献:名称:闭环易位反应可访问的13元杂环中烯烃双键的立体化学摘要:通过闭环复分解(RCM)反应合成了曼扎明生物碱核心结构的13元杂环类似物。评估了远程杂原子(N,O,S)对使用第一和第二代钌卡宾络合物在RCM反应中形成的烯烃双键的E / Z立体化学的影响。研究表明,RCM反应是动力学控制的,杂原子影响双键的立体化学。DOI:10.1016/j.tetlet.2012.09.065
文献信息
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The winding road of the uvaretin class of natural products: from total synthesis to bioactive agent discovery作者:Johnathan Dallman、Ashabha Lansakara、Thi Nguyen、Chamitha Weeramange、Wasundara Hulangamuwa、Ryan J. RaffertyDOI:10.1039/c9md00052f日期:——synthetic route to gain access to the uvaretin class of chalcone natural products. In this, the construction of a small library was achieved, and the collection was evaluated for cytotoxicity and other biological properties. Uvaretin (1) was accessed via a seven-step route in an overall yield of 15.1%. Within this route, the unsaturated enone variant of uvaretin (2), also a natural product, was accessed在此,我们公开了合成途径的开发,以获取查尔酮天然产品中的uvaretin类。在这种情况下,实现了一个小型文库的构建,并对该集合的细胞毒性和其他生物学特性进行了评估。通过七步路线获得了Uvaretin(1),总产率为15.1%。在该途径内,通过六个步骤以16.7%的收率获得了也是天然产物的uvaretin(2)的不饱和烯酮变体。与以前的合成路线相比,该路线提供的1和2产量分别提高了将近三倍,而总产量分别为5.8%和3.0%。评估1和图2显示了癌细胞系HeLa,U937,A549和MIA PaCa-2中的IC 50值在2.0和5.1μM之间。整个查耳酮文库集的筛选导致在六个癌细胞系中发现30多种化合物,这些化合物具有唯一的μMIC 50活性。此外,发现多个文库成员具有已知的化学治疗剂有希望的增强特性。
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Ring-closing metathesis reaction-based synthesis of new classes of polyether macrocyclic systems作者:Naveen、Srinivasarao Arulananda BabuDOI:10.1016/j.tet.2015.06.070日期:2015.10metathesis (RCM) reactions of suitable substrates having terminal olefins, which are assembled from various linkers and hydroxy benzaldehydes and syntheses of a wide range of 16–30 membered, new crown ether-type polyether, aza-polyether, bis aza-polyether macrocycles and dilactone moiety embedded polyether macrocycles (macrolides) are reported. After the ring-closure reaction, installation of different functional
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Dual Roles of <i>tert</i> ‐Butyl Nitrite in the Transition Metal‐ and External Oxidant‐Free Trifluoromethyloximation of Alkenes作者:Ya Wu、Yanli Zhang、Zhen Yang、Jingchao Jiao、Xiaoke Zheng、Weisheng Feng、Mengsha Zhang、Hao Cheng、Lin TangDOI:10.1002/cssc.201901856日期:2019.9.6nitrogen source and oxidant, the trifluoromethyloximation of alkenes proceeds smoothly in a free-radical process. The developed difunctionalization reaction enables practical and efficient synthesis of a wide range of α-CF3 ketoximes in moderate yields with excellent regioselectivity. This method features the use of readily available and stable alkenes as substrates and inexpensive CF3 SO2 Na as a CF3 reagent
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Mild and Selective Vanadium-Catalyzed Oxidation of Benzylic, Allylic, and Propargylic Alcohols Using Air申请人:Kloek Hanson Susan公开号:US20120232279A1公开(公告)日:2012-09-13The invention concerns processes for oxidizing an alcohol to produce a carbonyl compound. The processes comprise contacting the alcohol with (i) a gaseous mixture comprising oxygen; and (ii) an amine compound in the presence of a catalyst, having the formula: where each of R 1 -R 12 are independently H, alkyl, aryl, CF 3 , halogen, OR 13 , SO 3 R 14 , C(O)R 15 , CONR 16 R 17 or CO 2 R 18 ; each of R 13 -R 18 is independently alkyl or aryl; and Z is alkl or aryl.
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Direct Halogenation of Alcohols and Their Derivatives withtert-Butyl Halides in the Ionic Liquid [pmIm]Br under Sonication Conditions - A Novel, Efficient and Green Methodology作者:Brindaban C. Ranu、Ranjan JanaDOI:10.1002/ejoc.200400597日期:2005.2A novel halogenating reagent system for direct halogenation of alcohols has been developed. tert-Butyl bromide, chloride and iodide in combination with the ionic liquid [pmIm]Br have been found to convert alcohols into the corresponding bromides, chlorides and iodides under sonication conditions (or heating) in good yields. Although a variety of primary and secondary alcohols participated in this reaction
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顺式-4-甲氧基苯基1-丙烯基醚
顺式-2,4,5-三甲氧基-1-丙烯基苯
顺式-1,3-二甲基-4-苯基-2-氮杂环丁酮
非那西丁杂质7
非那西丁杂质3
非那西丁杂质22
非那西丁杂质18
非那卡因
非布司他杂质37
非布司他杂质30
非布丙醇
雷诺嗪
阿达洛尔
阿达洛尔
阿莫噁酮
阿莫兰特
阿维西利
阿索卡诺
阿米维林
阿立酮
阿曲汀中间体3
阿普洛尔
阿普斯特杂质67
阿普斯特中间体
阿普斯特中间体
阿托西汀EP杂质A
阿托莫西汀杂质24
阿托莫西汀杂质10
阿托莫西汀EP杂质C
阿尼扎芬
阿利克仑中间体3
间苯胺氢氟乙酰氯
间苯二酚二缩水甘油醚
间苯二酚二异丙醇醚
间苯二酚二(2-羟乙基)醚
间苄氧基苯乙醇
间甲苯氧基乙酸肼
间甲苯氧基乙腈
间甲苯异氰酸酯
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