1-(benzo[d][1,3]dioxol-5-yl)-5-methylpyrrolidin-2-one | 1507408-60-7
分子结构分类
中文名称
——
中文别名
——
英文名称
1-(benzo[d][1,3]dioxol-5-yl)-5-methylpyrrolidin-2-one
英文别名
——
![1-(benzo[d][1,3]dioxol-5-yl)-5-methylpyrrolidin-2-one化学式](data:image/svg+xml;base64,<?xml version="1.0" encoding="UTF-8"?>
<svg xmlns="http://www.w3.org/2000/svg" xmlns:xlink="http://www.w3.org/1999/xlink" width="300" height="300" viewBox="0 0 300 300">
<defs>
<g>
<g id="glyph-0-0">
<path d="M 1.03125 3.640625 L 1.03125 -14.546875 L 11.34375 -14.546875 L 11.34375 3.640625 Z M 2.1875 2.5 L 10.1875 2.5 L 10.1875 -13.390625 L 2.1875 -13.390625 Z M 2.1875 2.5 "/>
</g>
<g id="glyph-0-1">
<path d="M 2.03125 -15.03125 L 4.765625 -15.03125 L 11.4375 -2.453125 L 11.4375 -15.03125 L 13.40625 -15.03125 L 13.40625 0 L 10.671875 0 L 4 -12.578125 L 4 0 L 2.03125 0 Z M 2.03125 -15.03125 "/>
</g>
<g id="glyph-0-2">
<path d="M 13.28125 -13.875 L 13.28125 -11.734375 C 12.59375 -12.367188 11.863281 -12.84375 11.09375 -13.15625 C 10.320312 -13.476562 9.5 -13.640625 8.625 -13.640625 C 6.90625 -13.640625 5.585938 -13.113281 4.671875 -12.0625 C 3.753906 -11.007812 3.296875 -9.488281 3.296875 -7.5 C 3.296875 -5.519531 3.753906 -4.003906 4.671875 -2.953125 C 5.585938 -1.898438 6.90625 -1.375 8.625 -1.375 C 9.5 -1.375 10.320312 -1.53125 11.09375 -1.84375 C 11.863281 -2.164062 12.59375 -2.644531 13.28125 -3.28125 L 13.28125 -1.15625 C 12.570312 -0.675781 11.816406 -0.3125 11.015625 -0.0625 C 10.222656 0.175781 9.382812 0.296875 8.5 0.296875 C 6.21875 0.296875 4.421875 -0.398438 3.109375 -1.796875 C 1.804688 -3.191406 1.15625 -5.09375 1.15625 -7.5 C 1.15625 -9.914062 1.804688 -11.820312 3.109375 -13.21875 C 4.421875 -14.613281 6.21875 -15.3125 8.5 -15.3125 C 9.394531 -15.3125 10.238281 -15.191406 11.03125 -14.953125 C 11.832031 -14.710938 12.582031 -14.351562 13.28125 -13.875 Z M 13.28125 -13.875 "/>
</g>
<g id="glyph-0-3">
<path d="M 2.03125 -15.03125 L 4.0625 -15.03125 L 4.0625 -8.875 L 11.453125 -8.875 L 11.453125 -15.03125 L 13.484375 -15.03125 L 13.484375 0 L 11.453125 0 L 11.453125 -7.15625 L 4.0625 -7.15625 L 4.0625 0 L 2.03125 0 Z M 2.03125 -15.03125 "/>
</g>
<g id="glyph-0-4">
<path d="M 8.125 -13.65625 C 6.644531 -13.65625 5.46875 -13.101562 4.59375 -12 C 3.726562 -10.90625 3.296875 -9.40625 3.296875 -7.5 C 3.296875 -5.601562 3.726562 -4.101562 4.59375 -3 C 5.46875 -1.90625 6.644531 -1.359375 8.125 -1.359375 C 9.601562 -1.359375 10.773438 -1.90625 11.640625 -3 C 12.503906 -4.101562 12.9375 -5.601562 12.9375 -7.5 C 12.9375 -9.40625 12.503906 -10.90625 11.640625 -12 C 10.773438 -13.101562 9.601562 -13.65625 8.125 -13.65625 Z M 8.125 -15.3125 C 10.238281 -15.3125 11.925781 -14.601562 13.1875 -13.1875 C 14.445312 -11.769531 15.078125 -9.875 15.078125 -7.5 C 15.078125 -5.132812 14.445312 -3.242188 13.1875 -1.828125 C 11.925781 -0.410156 10.238281 0.296875 8.125 0.296875 C 6.007812 0.296875 4.316406 -0.40625 3.046875 -1.8125 C 1.785156 -3.226562 1.15625 -5.125 1.15625 -7.5 C 1.15625 -9.875 1.785156 -11.769531 3.046875 -13.1875 C 4.316406 -14.601562 6.007812 -15.3125 8.125 -15.3125 Z M 8.125 -15.3125 "/>
</g>
<g id="glyph-1-0">
<path d="M 0.6875 2.4375 L 0.6875 -9.6875 L 7.5625 -9.6875 L 7.5625 2.4375 Z M 1.453125 1.671875 L 6.796875 1.671875 L 6.796875 -8.921875 L 1.453125 -8.921875 Z M 1.453125 1.671875 "/>
</g>
<g id="glyph-1-1">
<path d="M 5.578125 -5.40625 C 6.222656 -5.269531 6.726562 -4.976562 7.09375 -4.53125 C 7.457031 -4.09375 7.640625 -3.550781 7.640625 -2.90625 C 7.640625 -1.925781 7.300781 -1.164062 6.625 -0.625 C 5.945312 -0.0820312 4.976562 0.1875 3.71875 0.1875 C 3.300781 0.1875 2.867188 0.144531 2.421875 0.0625 C 1.984375 -0.0078125 1.523438 -0.128906 1.046875 -0.296875 L 1.046875 -1.609375 C 1.421875 -1.390625 1.832031 -1.222656 2.28125 -1.109375 C 2.726562 -1.003906 3.195312 -0.953125 3.6875 -0.953125 C 4.539062 -0.953125 5.1875 -1.117188 5.625 -1.453125 C 6.070312 -1.785156 6.296875 -2.269531 6.296875 -2.90625 C 6.296875 -3.5 6.085938 -3.960938 5.671875 -4.296875 C 5.265625 -4.628906 4.691406 -4.796875 3.953125 -4.796875 L 2.78125 -4.796875 L 2.78125 -5.921875 L 4 -5.921875 C 4.664062 -5.921875 5.175781 -6.050781 5.53125 -6.3125 C 5.882812 -6.582031 6.0625 -6.96875 6.0625 -7.46875 C 6.0625 -7.976562 5.878906 -8.367188 5.515625 -8.640625 C 5.148438 -8.921875 4.628906 -9.0625 3.953125 -9.0625 C 3.578125 -9.0625 3.175781 -9.019531 2.75 -8.9375 C 2.320312 -8.863281 1.851562 -8.738281 1.34375 -8.5625 L 1.34375 -9.78125 C 1.863281 -9.914062 2.347656 -10.019531 2.796875 -10.09375 C 3.242188 -10.164062 3.664062 -10.203125 4.0625 -10.203125 C 5.09375 -10.203125 5.90625 -9.96875 6.5 -9.5 C 7.101562 -9.03125 7.40625 -8.398438 7.40625 -7.609375 C 7.40625 -7.054688 7.242188 -6.585938 6.921875 -6.203125 C 6.609375 -5.816406 6.160156 -5.550781 5.578125 -5.40625 Z M 5.578125 -5.40625 "/>
</g>
</g>
</defs>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.788741 1.783954 L 2.571851 1.824708 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.368023 2.013403 L 0.934275 2.549263 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.395217 1.512994 L 1.012601 0.922973 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.562231 1.824178 L 3.109529 0.976983 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.754107 1.834253 L 3.197097 1.148634 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 2.557837 1.815618 L 3.017871 2.723792 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.934275 2.549263 L -0.0113204 2.186872 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.934275 2.549263 L 1.116076 3.230488 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.030932 0.930018 L 0.0403415 1.195145 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 1.075322 1.019631 L 1.34257 0.321286 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 0.919806 0.959712 L 1.186903 0.261746 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 3.094606 0.984634 L 4.110801 1.039402 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 3.003857 2.714702 L 4.022173 2.768637 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 3.108999 2.553353 L 3.934908 2.597061 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M -0.000639551 2.20331 L 0.0526889 1.179919 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.103377 1.039023 L 4.557578 1.929244 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 3.998538 1.200296 L 4.365323 1.919245 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.098075 1.04425 L 4.577955 0.564597 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.007326 2.776212 L 4.561593 1.923033 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 4.55023 1.930456 L 5.284708 1.814255 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 5.091241 0.473696 L 5.712396 0.790485 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<path fill="none" stroke-width="0.0333333" stroke-linecap="butt" stroke-linejoin="miter" stroke="rgb(0%, 0%, 0%)" stroke-opacity="1" stroke-miterlimit="10" d="M 5.588392 1.496935 L 5.703533 0.773062 " transform="matrix(51.567238, 0, 0, 51.567238, 2.892355, 58.955619)"/>
<g fill="rgb(19%, 31%, 97.000003%)" fill-opacity="1">
<use xlink:href="#glyph-0-1" x="75.792969" y="157.863281"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-2" x="57.144531" y="247.738281"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-0-3" x="70.121094" y="247.46875"/>
</g>
<g fill="rgb(0%, 0%, 0%)" fill-opacity="1">
<use xlink:href="#glyph-1-1" x="84.28125" y="248.652344"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-4" x="65.746094" y="66.464844"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-4" x="242.898438" y="83.535156"/>
</g>
<g fill="rgb(100%, 5.1%, 5.1%)" fill-opacity="1">
<use xlink:href="#glyph-0-4" x="280.6875" y="157.898438"/>
</g>
</svg>
)
CAS
1507408-60-7
化学式
C12H13NO3
mdl
——
分子量
219.24
InChiKey
IDHVQMFRQMRZLB-UHFFFAOYSA-N
BEILSTEIN
——
EINECS
——
-
物化性质
-
计算性质
-
ADMET
-
安全信息
-
SDS
-
制备方法与用途
-
上下游信息
-
文献信息
-
表征谱图
-
同类化合物
-
相关功能分类
-
相关结构分类
计算性质
-
辛醇/水分配系数(LogP):1.93
-
重原子数:16.0
-
可旋转键数:1.0
-
环数:3.0
-
sp3杂化的碳原子比例:0.42
-
拓扑面积:38.77
-
氢给体数:0.0
-
氢受体数:3.0
反应信息
-
作为产物:描述:N-(1,3-benzodioxol-5-yl)-4-oxopentanamide 在 三乙基硅烷 、 aluminium(III) triflate 作用下, 以 乙腈 为溶剂, 反应 1.0h, 以80%的产率得到1-(benzo[d][1,3]dioxol-5-yl)-5-methylpyrrolidin-2-one参考文献:名称:Al(OTf)3催化级联环化和离子加氢反应高效高效地合成内酰胺和N-杂环摘要:描述了用于合成N-取代的内酰胺的有效且通用的方法的发现和发展。通过Al(OTf)3催化的级联环化反应和相应的氮取代酮酰胺的离子加氢反应以高收率形成吡咯烷二酮,哌啶酮和与结构相关的杂环。DOI:10.1021/ol403173x
文献信息
-
Selective and Efficient Iridium Catalyst for the Reductive Amination of Levulinic Acid into Pyrrolidones作者:Shengdong Wang、Haiyun Huang、Christian Bruneau、Cédric FischmeisterDOI:10.1002/cssc.201701299日期:2017.11.9Ooh LA LA: The reductive amination of levulinic acid with a variety of aliphatic amines and aniline derivatives including sterically hindered amines is presented. The reaction is promoted by an iridium catalyst operating at low loading and 5 bar H2 under neat conditions. The catalyst was also efficient for the synthesis of N-aryl isoindolinone in high yields.
-
Iron‐Catalysed Switchable Synthesis of Pyrrolidines <i>vs</i> Pyrrolidinones by Reductive Amination of Levulinic Acid Derivatives <i>via</i> Hydrosilylation作者:Duo Wei、Chakkrit Netkaew、Christophe DarcelDOI:10.1002/adsc.201801656日期:2019.4.16A selective production of pyrrolidines vs pyrrolidinones via hydrosilylation of levulinic acid and levulinates by switching of the iron complex catalyst is presented herein. The reactions proceeded efficiently with various anilines and alkylamines under both visible light irradiation and thermal conditions with 43 examples in isolated yields up to 93%. Noticeably, under similar conditions, cyclic amines
-
Formic acid as a hydrogen source for the iridium-catalyzed reductive amination of levulinic acid and 2-formylbenzoic acid作者:Shengdong Wang、Haiyun Huang、Christian Bruneau、Cédric FischmeisterDOI:10.1039/c9cy01019j日期:——The aqueous phase catalytic reductive amination of levulinic acid (LA) into pyrrolidones and 2-formylbenzoic acid into N-arylisoindolines is reported. The catalytic reaction involves an iridium catalyst bearing an electron-rich dipyridylamine ligand and uses formic acid as a hydrogen source. The chemoselective iridium catalyst displayed high efficiency for the synthesis of a variety of N-substituted
-
Cobalt‐Catalyzed Selective Transformation of Levulinic Acid and Amines into Pyrrolidines and Pyrrolidinones using Hydrogen作者:Yixiao Pan、Zhenli Luo、Ji Yang、Jiahong Han、Jianbo Yang、Zhen Yao、Lijin Xu、Peng Wang、Qian ShiDOI:10.1002/adsc.202200578日期:2022.8.16Cobalt-catalyzed selective transformation of levulinic acid and primary amines into pyrrolidines and pyrrolidinones under H2 has been developed. The catalyst system consisting of Co(NTf2)2, 1,1,1-tris(di(4-methoxyphenyl)phosphinomethyl) ethane ((p-anisyl)triphos) and Me3SiOTf works well for the synthesis of pyrrolidines via reductive amination/cyclization/deoxygenative reduction of amide, and using Co(NTf2)2/1已经开发了在 H 2下钴催化的乙酰丙酸和伯胺选择性转化为吡咯烷和吡咯烷酮。由Co(NTf 2 ) 2、1,1,1-三(二(4-甲氧基苯基)膦甲基)乙烷((对茴香基)三膦)和Me 3 SiOTf组成的催化剂体系适用于通过还原反应合成吡咯烷酰胺的胺化/环化/脱氧还原,并使用Co(NTf 2 ) 21,1,1-三(二苯基膦基甲基)乙烷(triphos)在氢气减压下作为催化剂导致仅形成吡咯烷酮。芳基和烷基伯胺都是合适的底物,并且可以容忍多种官能团。同时,4-氧代-4-芳基丁酸、5-氧代己酸、6-氧代庚酸、2-甲酰基苯甲酸、2-乙酰基苯甲酸和2'-乙酰基-[1,1'-联苯]-2-羧酸是也适用,允许方便地获得具有不同环大小的环胺和内酰胺。
同类化合物
(5-(4-乙氧基-3-甲基苄基)-1,3-苯并二恶茂)
黄樟素氧化物
黄樟素乙二醇; 2',3'-二氢-2',3'-二羟基黄樟素
黄樟素
风藤酰胺
风藤酮
非哌西特盐酸盐
非哌西特 盐酸盐
角秋水仙碱
螺[1,3-苯并二氧戊环-2,1'-环己烷]-5-胺
蓝细菌
苯并[d][1,3]二氧杂环戊烯-5-胺盐酸盐
苯并[d][1,3]二氧代l-5-甲基(2-氧代乙基)氨基甲酸叔丁酯
苯并[d][1,3]二氧代l-5-氨基甲酸叔丁酯
苯并[d][1,3]二氧代-4-甲腈
苯并[d][1,3]二氧代-4-氨基甲酸叔丁酯
苯并[d[1,3]二氧代-4-羧酰胺
苯并[1,3]二氧杂环戊烯-5-基甲基2-氯乙酸酯
苯并[1,3]二氧杂环戊烯-5-基甲基-苄基-胺
苯并[1,3]二氧杂环戊烯-5-基甲基-[2-(4-氟-苯基)-乙基]-胺
苯并[1,3]二氧杂环戊烯-5-基甲基-(四氢-呋喃-2-基甲基)-胺
苯并[1,3]二氧杂环戊烯-5-基甲基-(2-氟-苄基)-胺
苯并[1,3]二氧杂环戊烯-5-基甲基-(1-甲基-哌啶-4-基)-胺
苯并[1,3]二氧代l-5-甲基-吡啶-3-甲基-胺
苯并[1,3]二氧代l-5-甲基-(4-氟-苄基)-胺
苯并[1,3]二氧代l-5-乙酸甲酯
苯并[1,3]二氧代-5-羧酰胺盐酸盐
苯并[1,3]二氧代-5-甲基肼盐酸盐
苯并[1,3]二氧代-5-甲基吡啶-4-甲胺
苯并[1,3]二氧代-5-甲基-吡啶-2-甲胺
苯并[1,3]二氧代-5-乙酰氯
苯并-1,3-二氧杂环戊烯-5-甲醇丙酸酯
苯乙酸,1-(1,3-苯并二氧杂环戊烯-5-基)-3-丁烯-1-基酯
苯乙酮O-((4-(3,4-亚甲二氧基苄基)-1-哌嗪-1-基)羰基甲基)肟
苯,1-甲氧基-6-硝基-3,4-亚甲二氧基-
芝麻酚
芝麻林素
脲,N-1,3-苯并二噁唑-5-基-N'-(2-溴乙基)-
胡椒醛肟
胡椒醛-((Z)-O-苯基氨基甲酰基肟)
胡椒醛,二苄基缩硫醛
胡椒醛
胡椒醇
胡椒酸酰氯
胡椒酸
胡椒腈
胡椒环乙酮肟
胡椒环
胡椒基重氮酮
胡椒基甲醛
联系我们
关注我们
公众号
