undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylic acid | 140239-76-5
中文名称
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中文别名
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英文名称
undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylic acid
英文别名
undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylic acid
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)
CAS
140239-76-5
化学式
C22H20O4
mdl
——
分子量
348.398
InChiKey
ZSAOFOIFLDLVMI-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
计算性质
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辛醇/水分配系数(LogP):1.37
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重原子数:26.0
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可旋转键数:2.0
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环数:12.0
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sp3杂化的碳原子比例:0.91
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拓扑面积:74.6
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氢给体数:2.0
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氢受体数:2.0
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 —— dimethyl undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylate 124316-65-0 C24H24O4 376.452
反应信息
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作为反应物:描述:undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylic acid 在 Pt/Al2O3 氢气 作用下, 以65%的产率得到正十二面烷参考文献:名称:从Pagodanes到Dodecahedranes-寻找对母体(C 20 H 20)烃有用的通道**摘要:通过利用新颖的S N 2 pagodane→十二面体路线,探索了对母体五边形十二面体的有效制备途径(2)。一锅催化程序(Pd / C / H 2)从八倍官能化的二十二碳五烷(14,C 20 H 12 Br 6(CO 2 CH 3)2)开始,但在短时间内却表现不佳,但不稳定(33-53%) ,从竞争中脱颖而出。经由较长的路线1,6-二羧基/二溴dodecahedranes(35,22原来作为首选与基于公共pagodane前体的74-76%的总产率)(13)。©1997爱思唯尔科学有限公司。DOI:10.1016/s0040-4020(97)00345-1
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作为产物:描述:dimethyl undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylate 在 sodium hydroxide 作用下, 以 甲醇 、 水 为溶剂, 反应 5.0h, 以99%的产率得到undecacyclo[9.9.0.02,9.03,7.04,20.05,18.06,16.08,15.010,14.012,19.013,17]icosane-1,6-dicarboxylic acid参考文献:名称:从Pagodanes到Dodecahedranes-寻找对母体(C 20 H 20)烃有用的通道**摘要:通过利用新颖的S N 2 pagodane→十二面体路线,探索了对母体五边形十二面体的有效制备途径(2)。一锅催化程序(Pd / C / H 2)从八倍官能化的二十二碳五烷(14,C 20 H 12 Br 6(CO 2 CH 3)2)开始,但在短时间内却表现不佳,但不稳定(33-53%) ,从竞争中脱颖而出。经由较长的路线1,6-二羧基/二溴dodecahedranes(35,22原来作为首选与基于公共pagodane前体的74-76%的总产率)(13)。©1997爱思唯尔科学有限公司。DOI:10.1016/s0040-4020(97)00345-1
文献信息
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Pentagonal dodecahedranes. Novel substitution patterns— MS fragmentation and unsaturation作者:Klaus Scheumann、Emmerich Sackers、Martin Bertau、Jürgen Leonhardt、Dieter Hunkler、Hans Fritz、Jürgen Wörth、Horst PrinzbachDOI:10.1039/a709107i日期:——For two- to six-fold functionalised dodecahedranes (7–10) the chances for selective variation of their substitution have been explored, as part of a program directed at homododecahedranes and at highly unsaturated dodecahedranes, ultimately C20 fullerene. With 1,6-dimethyl ester 7 several side chain transformations next to the very bulky dodecahedral cage were effected (1,6-bismethylene derivatives对于二至六倍官能化的十二面体(7-10),已经探索了选择性取代的可能性,这是针对纯十二面体和高度不饱和十二面体(最终为C 20富勒烯)的计划的一部分。使用1,6-二甲基酯7时,在非常庞大的十二面体笼子旁边进行了数个侧链转化(1,6-二亚甲基衍生物25-31)。在不断变化的环境中,实现了Barton型卤化/氢化脱羧作用(15–17、38、49、59、60、77)以及各种亲核取代作用(18、20、23、39、61–64),主要是对高效率和替换模式的保留都很好。对于笼型烯烃8/9和二环氧化合物10,正面为顺式-1,2-加成在与HBr和CF 3 CO 2 H的反应中仅面临轻微竞争,但在与Br 2的反应中仅是次要途径。在后一种情况下,通过一系列的Br +加成/ HBr消除步骤,在C 20骨架上植入了多达9个在附近放置的溴取代基。研究了各种功能化的十二面体在电子轰击下的命运-发现外部(C–X / Y)
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The pagodane route to dodecahedranes-functional group manipulations on the dodecahedrane sphere作者:Klaus Scheumann、Fabian Wahl、Horst PrinzbachDOI:10.1016/s0040-4039(00)92325-6日期:1992.1Reductive and halogenative Barton decar☐ylation methodologies provide an expeditious access to variously 1,6-di- and 1,6,11,16-tetrasubstituted pentagonal dodecahedranes. Vicinal CO2R and Cl substituents cause increasing competition in the radical transfer step.还原性和卤化的Barton十烷基化方法可快速获得各种1,6-二-和1,6,11,16-四取代的五角形十二面体。相邻的CO 2 R和Cl取代基会在自由基转移步骤中引起越来越多的竞争。
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From Pagodanes to Dodecahedranes - Search for a Serviceable Access to the Parent (C 20 H 20 ) Hydrocarbon ** **Dedicated to Professor W. von E. Doering on the occasion of his 80th birthday. H.P. very fondly remembers his two post-doc years at Yale University (1957–59).作者:Martin Bertau、Fabian Wahl、Andreas Weiler、Klaus Scheumann、Jürgen Wörth、Manfred Keller、Horst PrinzbachDOI:10.1016/s0040-4020(97)00345-1日期:1997.7novel SN2 pagodane → dodecahedrane routes a preparatively potent access to the parent pentagonal dodecahedrane (2) was explored. The one-pot catalytic procedure (Pd/C/H2) starting from an eightfold functionalized secopagodane (14, C20H12Br6 (CO2 CH3)2) excells in shortness but, rather erratic (33–53%), falls out of the competition. The longer route via 1,6-dicarboxyl/dibromo dodecahedranes (35, 22)通过利用新颖的S N 2 pagodane→十二面体路线,探索了对母体五边形十二面体的有效制备途径(2)。一锅催化程序(Pd / C / H 2)从八倍官能化的二十二碳五烷(14,C 20 H 12 Br 6(CO 2 CH 3)2)开始,但在短时间内却表现不佳,但不稳定(33-53%) ,从竞争中脱颖而出。经由较长的路线1,6-二羧基/二溴dodecahedranes(35,22原来作为首选与基于公共pagodane前体的74-76%的总产率)(13)。©1997爱思唯尔科学有限公司。
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