3,5-bis{6-[4-(4'-ethoxyphenylazo)phenoxy]hexyloxy}benzyl alcohol | 912646-02-7

分子结构分类

有机化合物 - 有机杂环化合物 - 偶氮苯

中文名称

——

中文别名

——

英文名称

3,5-bis{6-[4-(4'-ethoxyphenylazo)phenoxy]hexyloxy}benzyl alcohol

英文别名

[3,5-Bis[6-[4-[(4-ethoxyphenyl)diazenyl]phenoxy]hexoxy]phenyl]methanol；[3,5-bis[6-[4-[(4-ethoxyphenyl)diazenyl]phenoxy]hexoxy]phenyl]methanol

3,5-bis{6-[4-(4'-ethoxyphenylazo)phenoxy]hexyloxy}benzyl alcohol化学式

CAS

912646-02-7

化学式

C₄₇H₅₆N₄O₇

mdl

——

分子量

788.984

InChiKey

FGGOMUAWNLDGKC-UHFFFAOYSA-N

BEILSTEIN

——

EINECS

——

计算性质

辛醇/水分配系数(LogP)：

11.4
重原子数：

58
可旋转键数：

27
环数：

5.0
sp3杂化的碳原子比例：

0.36
拓扑面积：

125
氢给体数：

1
氢受体数：

11

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
4-[(4-乙氧基苯基)亚肼基]环己-2,5-二烯-1-酮	4-ethoxy-4'-hydroxyazobenzene	2496-26-6	C₁₄H₁₄N₂O₂	242.277

反应信息

作为产物：

描述：

对乙氧基苯胺在盐酸、 sodium nitrite 作用下，生成 3,5-bis{6-[4-(4'-ethoxyphenylazo)phenoxy]hexyloxy}benzyl alcohol

参考文献：

名称：

Colloidal Sphere Formation, H-Aggregation, and Photoresponsive Properties of an Amphiphilic Random Copolymer Bearing Branched Azo Side Chains

摘要：

This work studied the colloidal sphere formation, H- aggregation, and photoresponsive properties of an amphiphilic random copolymer functionalized with branched azo side chains ( POAPB(6)P- AC). The colloidal spheres were prepared through gradual hydrophobic association of the polymer chains in THF- H2O media, which was induced by a continuous increase in the water content. The forming process and morphology of the colloidal spheres were characterized by DLS, SLS, and TEM. UV- vis spectroscopy was used to study the azo chromophore H- aggregation and structure variation in the colloid formation process by measuring the parameters such as Imax, the trans- to- cis photoisomerization rate, and the isomerization degree at the photostationary state. The results indicate that the colloidal sphere formation undergoes several different stages as the water content increases. The polymeric chains start to associate at the critical water content ( CWC). CWC is related with the initial concentration of the polymer in THF and is estimated to be 23 vol % when the initial concentration is 1.0 mg/ mL. When the water content increases beyond the CWC, more and more polymer chains change from " isolated" single chains to clusters of associated chains. When the water content reaches 37%, almost all polymer chains are involved in the clusters. As the water content further increases, the clusters experience a collapse caused by the strong hydrophobic interaction, which is indicated by a dramatic size contraction detected from the DLS measurements. When the water content reaches about 60 vol %, the azo chromophores of POAPB6P- AC start to form H- aggregates, which is indicated by a significant blue shift ( from 360 to 339 nm) of the UV- vis maximum absorption band. The structure variation can also be detected from the photoisomerization behavior of the systems. When the water content changes from 50 to 60 vol %, both the trans- to- cis photoisomerization rate and the isomerization degree at the photostationary state decrease dramatically. Finally, when the water content increases from 95 to 100 vol %, the isomerization rate and degree significantly decrease again. In this stage, THF in the microphase is almost completely replaced by H2O, and colloidal structure is " frozen" because of the free volume decrease and chain entanglement. The above observations give insight into the occurrence of H- aggregation in colloids of amphiphilic azo polymers for the first time. The understanding can lead to further development in expanding functionalities of the photoresponsive colloidal spheres through manipulation of the chromophore aggregation.

DOI：

10.1021/ma061335p

点击查看最新优质反应信息

文献信息

Colloidal Sphere Formation, H-Aggregation, and Photoresponsive Properties of an Amphiphilic Random Copolymer Bearing Branched Azo Side Chains

作者：Yonghong Deng、Yaobang Li、Xiaogong Wang

DOI：10.1021/ma061335p

日期：2006.9.1

This work studied the colloidal sphere formation, H- aggregation, and photoresponsive properties of an amphiphilic random copolymer functionalized with branched azo side chains ( POAPB(6)P- AC). The colloidal spheres were prepared through gradual hydrophobic association of the polymer chains in THF- H2O media, which was induced by a continuous increase in the water content. The forming process and morphology of the colloidal spheres were characterized by DLS, SLS, and TEM. UV- vis spectroscopy was used to study the azo chromophore H- aggregation and structure variation in the colloid formation process by measuring the parameters such as Imax, the trans- to- cis photoisomerization rate, and the isomerization degree at the photostationary state. The results indicate that the colloidal sphere formation undergoes several different stages as the water content increases. The polymeric chains start to associate at the critical water content ( CWC). CWC is related with the initial concentration of the polymer in THF and is estimated to be 23 vol % when the initial concentration is 1.0 mg/ mL. When the water content increases beyond the CWC, more and more polymer chains change from " isolated" single chains to clusters of associated chains. When the water content reaches 37%, almost all polymer chains are involved in the clusters. As the water content further increases, the clusters experience a collapse caused by the strong hydrophobic interaction, which is indicated by a dramatic size contraction detected from the DLS measurements. When the water content reaches about 60 vol %, the azo chromophores of POAPB6P- AC start to form H- aggregates, which is indicated by a significant blue shift ( from 360 to 339 nm) of the UV- vis maximum absorption band. The structure variation can also be detected from the photoisomerization behavior of the systems. When the water content changes from 50 to 60 vol %, both the trans- to- cis photoisomerization rate and the isomerization degree at the photostationary state decrease dramatically. Finally, when the water content increases from 95 to 100 vol %, the isomerization rate and degree significantly decrease again. In this stage, THF in the microphase is almost completely replaced by H2O, and colloidal structure is " frozen" because of the free volume decrease and chain entanglement. The above observations give insight into the occurrence of H- aggregation in colloids of amphiphilic azo polymers for the first time. The understanding can lead to further development in expanding functionalities of the photoresponsive colloidal spheres through manipulation of the chromophore aggregation.

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