11'-(tert-butyl)-5',17',23',36',39',41'44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo[33.2.2.2(3,6).2(16,19).2(21,24).1(9,13).1(27,31)]heptatetraconta[3,5,9,11,13(45),16,18,21,23,27,29,31(40),35,37,38,41,43,46]octadecaene..]. | 231613-65-3

分子结构分类

有机化合物

中文名称

——

中文别名

——

英文名称

11'-(tert-butyl)-5',17',23',36',39',41'44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo[33.2.2.2(3,6).2(16,19).2(21,24).1(9,13).1(27,31)]heptatetraconta[3,5,9,11,13(45),16,18,21,23,27,29,31(40),35,37,38,41,43,46]octadecaene..].

英文别名

——

11'-(tert-butyl)-5',17',23',36',39',41'44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo[33.2.2.2(3,6).2(16,19).2(21,24).1(9,13).1(27,31)]heptatetraconta[3,5,9,11,13(45),16,18,21,23,27,29,31(40),35,37,38,41,43,46]octadecaene..].化学式

CAS

231613-65-3

化学式

C₆₅H₇₄N₄O₄

mdl

——

分子量

975.327

InChiKey

CASWJBZPOPEFTM-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

16.3
重原子数：

73
可旋转键数：

1
环数：

18.0
sp3杂化的碳原子比例：

0.38
拓扑面积：

116
氢给体数：

4
氢受体数：

4

上下游信息

上游原料

中文名称	英文名称	CAS号	化学式	分子量
——	N,N'-bis[4-[-(4-amino-3,5-dimethylphenyl)cyclohexyl]-2,6-dimethylphenyl]homoisophthalamide	231613-63-1	C₅₃H₆₄N₄O₂	789.117

反应信息

作为反应物：

描述：

3-氯磺酰苯甲酰氯、 4-[tris(4-tert-butylphenyl)methyl]aniline 、 11'-(tert-butyl)-5',17',23',36',39',41'44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo[33.2.2.2(3,6).2(16,19).2(21,24).1(9,13).1(27,31)]heptatetraconta[3,5,9,11,13(45),16,18,21,23,27,29,31(40),35,37,38,41,43,46]octadecaene..]. 在三乙胺作用下，以二氯甲烷为溶剂，反应 8.0h，以22%的产率得到[2]{N-{4-{tris[4-(tert-butyl)phenyl]methyl}phenyl}-3-{{{4-{tris[4-(tert-butyl)phenyl]methyl}phenyl}amino}sulfonyl}benzamide}-{11'(tert-butyl)-5',17',23',36',39',41',44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo...]}...

参考文献：

名称：

Size Complementarity of Macrocyclic Cavities and Stoppers in Amide-Rotaxanes

摘要：

New [2]rotaxanes were prepared by the threading and the slipping procedure, the latter having the advantage of not needing templating interactions. As a consequence, the first [2]rotaxane consisting of a tetraamide macrocycle and a pure hydrocarbon thread was synthesized (see 12a in Scheme 2). Sterically matching wheels and axles being the basic requirement of a successful slipping approach to rotaxanes, mono- and bishomologous wheels 5b, c with larger diameters than the parent 5a were synthesized and mechanically connected to amide axles 10a-c which were stoppered with blocking groups of different spatial demand (Scheme 1). The deslipping kinetics of the resulting rotaxanes 8a-c and 9a,b were measured and compared; it emerges that even slight increases in the wheel size require larger stoppers to stabilize the mechanical bond. Moreover, when the deslipping rate of 8a (amide wheel and amide axle) was determined in either DMF or THF, a strong dependence on the solvent polarity, which is caused by a differing extent of intramolecular H-bonds between the wheel and the axle, was observed. As expected, no such dependence was detected for rotaxane 12a (amide wheel and hydrocarbon axle) whose components cannot interact via ii-bonds. The comparison of the sterically matching pairs of macrocycles and blocking groups, found by a systematic fitting based on the results of slipping and deslipping experiments, with other rotaxane types bearing similar stoppers allows conclusions concerning the relative cavity size of wheels of various structure.

DOI：

10.1002/(sici)1522-2675(19990505)82:5<746::aid-hlca746>3.0.co;2-c
作为产物：

描述：

5-tert-butylisophthaloyl dichloride 、 N,N'-bis[4-[-(4-amino-3,5-dimethylphenyl)cyclohexyl]-2,6-dimethylphenyl]homoisophthalamide 在三乙胺作用下，以二氯甲烷为溶剂，反应 48.0h，以54%的产率得到11'-(tert-butyl)-5',17',23',36',39',41'44',46'-octamethyldispiro[cyclohexane-1,2'-[7,15,25,34]tetraazaheptacyclo[33.2.2.2(3,6).2(16,19).2(21,24).1(9,13).1(27,31)]heptatetraconta[3,5,9,11,13(45),16,18,21,23,27,29,31(40),35,37,38,41,43,46]octadecaene..].

参考文献：

名称：

Size Complementarity of Macrocyclic Cavities and Stoppers in Amide-Rotaxanes

摘要：

New [2]rotaxanes were prepared by the threading and the slipping procedure, the latter having the advantage of not needing templating interactions. As a consequence, the first [2]rotaxane consisting of a tetraamide macrocycle and a pure hydrocarbon thread was synthesized (see 12a in Scheme 2). Sterically matching wheels and axles being the basic requirement of a successful slipping approach to rotaxanes, mono- and bishomologous wheels 5b, c with larger diameters than the parent 5a were synthesized and mechanically connected to amide axles 10a-c which were stoppered with blocking groups of different spatial demand (Scheme 1). The deslipping kinetics of the resulting rotaxanes 8a-c and 9a,b were measured and compared; it emerges that even slight increases in the wheel size require larger stoppers to stabilize the mechanical bond. Moreover, when the deslipping rate of 8a (amide wheel and amide axle) was determined in either DMF or THF, a strong dependence on the solvent polarity, which is caused by a differing extent of intramolecular H-bonds between the wheel and the axle, was observed. As expected, no such dependence was detected for rotaxane 12a (amide wheel and hydrocarbon axle) whose components cannot interact via ii-bonds. The comparison of the sterically matching pairs of macrocycles and blocking groups, found by a systematic fitting based on the results of slipping and deslipping experiments, with other rotaxane types bearing similar stoppers allows conclusions concerning the relative cavity size of wheels of various structure.

DOI：

10.1002/(sici)1522-2675(19990505)82:5<746::aid-hlca746>3.0.co;2-c

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