Your search keyword '"Chen, Ze-Qiang"' showing total 3 results

1. Geminal Cross-Coupling of 1,1-Dibromoolefins Facilitating Multiple Topological pi-Conjugated Tetraarylethenes

Author

Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, Zhu, Ming-Qiang, Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, and Zhu, Ming-Qiang

Abstract

The cross-coupling reactions have been used in C-C bond formation which can be used extensively in optoelectronic materials for organic light-emitting diodes, organic photovoltaics, and chemical biosensing. Here, we report 2-fold geminal C-C bond formation at 1,1-dibromoolefins via cross-coupling reactions of aromatic boronic esters over Pd catalysts for multiple topological configurations of pi-conjugated molecules. We employ a series of recipes from a precursor toolbox to produce pi-conjugated macrocycles, conjugated dendrimers, linear conjugated polymers, and multiple conjugated microporous polymers and nanoparticles. The pi-conjugated macrocycles, dendrimers, and linear polymers show characteristic aggregation-induced emission properties. The conjugated microporous polymers possess unique porosity of 2-3 nm. The microporous polymer nanoparticles can be redispersed in solution. This universal strategy toward definite topological configurations of pi-conjugated molecules enables efficient coupling of aryl bromides with various coupling partners under mild conditions affording multiple topological conjugated systems with abundant optical and optoelectronic interest.

Published

2015

2. Geminal Cross-Coupling of 1,1-Dibromoolefins Facilitating Multiple Topological pi-Conjugated Tetraarylethenes

Author

Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, Zhu, Ming-Qiang, Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, and Zhu, Ming-Qiang

Abstract

The cross-coupling reactions have been used in C-C bond formation which can be used extensively in optoelectronic materials for organic light-emitting diodes, organic photovoltaics, and chemical biosensing. Here, we report 2-fold geminal C-C bond formation at 1,1-dibromoolefins via cross-coupling reactions of aromatic boronic esters over Pd catalysts for multiple topological configurations of pi-conjugated molecules. We employ a series of recipes from a precursor toolbox to produce pi-conjugated macrocycles, conjugated dendrimers, linear conjugated polymers, and multiple conjugated microporous polymers and nanoparticles. The pi-conjugated macrocycles, dendrimers, and linear polymers show characteristic aggregation-induced emission properties. The conjugated microporous polymers possess unique porosity of 2-3 nm. The microporous polymer nanoparticles can be redispersed in solution. This universal strategy toward definite topological configurations of pi-conjugated molecules enables efficient coupling of aryl bromides with various coupling partners under mild conditions affording multiple topological conjugated systems with abundant optical and optoelectronic interest.

Published

2015

3. Geminal Cross-Coupling of 1,1-Dibromoolefins Facilitating Multiple Topological pi-Conjugated Tetraarylethenes

Author

Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, Zhu, Ming-Qiang, Chen, Ze-Qiang, Chen, Tao, Liu, Jun-Xia, Zhang, Guo-Feng, Li, Chong, Gong, Wen-Liang, Xiong, Zu-Jing, Xie, Nuo-Hua, Tang, Ben Zhong, and Zhu, Ming-Qiang

Abstract

The cross-coupling reactions have been used in C-C bond formation which can be used extensively in optoelectronic materials for organic light-emitting diodes, organic photovoltaics, and chemical biosensing. Here, we report 2-fold geminal C-C bond formation at 1,1-dibromoolefins via cross-coupling reactions of aromatic boronic esters over Pd catalysts for multiple topological configurations of pi-conjugated molecules. We employ a series of recipes from a precursor toolbox to produce pi-conjugated macrocycles, conjugated dendrimers, linear conjugated polymers, and multiple conjugated microporous polymers and nanoparticles. The pi-conjugated macrocycles, dendrimers, and linear polymers show characteristic aggregation-induced emission properties. The conjugated microporous polymers possess unique porosity of 2-3 nm. The microporous polymer nanoparticles can be redispersed in solution. This universal strategy toward definite topological configurations of pi-conjugated molecules enables efficient coupling of aryl bromides with various coupling partners under mild conditions affording multiple topological conjugated systems with abundant optical and optoelectronic interest.

Published

2015