Citation:
Rui-rui Yue a, Jing-kun Xu a, Bao-yang Lu a, Cong-cong Liu a, Zhao-jin Zhu a, Zhuo Zhang b. ELECTROSYNTHESES AND CHARACTERIZATION OF A FLUORESCENT CONDUCTING COPOLYMER OF BENZANTHRONE AND THIOPHENE[J]. Chinese Journal of Polymer Science,
2010, 28(5): 771-780.
doi:
10.1007/s10118-010-9141-7
ELECTROSYNTHESES AND CHARACTERIZATION OF A FLUORESCENT CONDUCTING COPOLYMER OF BENZANTHRONE AND THIOPHENE
摘要:
Poly(benzanthrone-co-thiophene), a new conducting copolymer, was successfully prepared by direct anodic oxidation of benzanthrone and thiophene (Th) in a binary solvent system containing boron trifluoride diethyl etherate (BFEE) and acetonitrile (ACN). The as-formed copolymer film electrodeposited with monomer feed ratio of benzanthrone/Th = 1:1 at the applied potential of 1.3 V versus Ag/AgCl exhibited the advantages of both polybenzanthrone and polythiophene, such as active electrochemical behavior, excellent thermal stability, relatively high electrical conductivity and mechanical properties. UV-Vis spectroscopy, 1H-NMR and SEM were used to characterize and investigate the structures and morphologies of the copolymers. Fluorescence spectroscopy studies revealed that the obtained copolymer films show strong emission at about 525 nm. Moreover, the emitting properties of the copolymers could be tuned by changing some parameters during the electropolymerization process, such as monomer feed ratio.
English
ELECTROSYNTHESES AND CHARACTERIZATION OF A FLUORESCENT CONDUCTING COPOLYMER OF BENZANTHRONE AND THIOPHENE
Abstract:
Poly(benzanthrone-co-thiophene), a new conducting copolymer, was successfully prepared by direct anodic oxidation of benzanthrone and thiophene (Th) in a binary solvent system containing boron trifluoride diethyl etherate (BFEE) and acetonitrile (ACN). The as-formed copolymer film electrodeposited with monomer feed ratio of benzanthrone/Th = 1:1 at the applied potential of 1.3 V versus Ag/AgCl exhibited the advantages of both polybenzanthrone and polythiophene, such as active electrochemical behavior, excellent thermal stability, relatively high electrical conductivity and mechanical properties. UV-Vis spectroscopy, 1H-NMR and SEM were used to characterize and investigate the structures and morphologies of the copolymers. Fluorescence spectroscopy studies revealed that the obtained copolymer films show strong emission at about 525 nm. Moreover, the emitting properties of the copolymers could be tuned by changing some parameters during the electropolymerization process, such as monomer feed ratio.
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