Citation: Jian Zhang, Shu-Sen Kang, Zhe Zhang, Mao Li. Multiscale and multicomponent layer by layer assembly of optical thin films triggered by electrochemical coupling reactions of N-alkylcarbazoles[J]. Chinese Chemical Letters, ;2016, 27(4): 487-491. shu

Multiscale and multicomponent layer by layer assembly of optical thin films triggered by electrochemical coupling reactions of N-alkylcarbazoles

Jian Zhang ^a,b, ,
Shu-Sen Kang ^a,b ,
Zhe Zhang ^a ,
Mao Li ^a

a State Key Laboratory of Polymer Physics and Chemistry, Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, Changchun 130022, China;
b University of Chinese Academy of Sciences, Beijing 100049, China

Received Date: 31 December 2015
Revised Date: 18 January 2016

Fund Project: This work was supported by the National Natural Science Foundation of China (Nos. 21374115, 51573181, and 21504088), the Hundred Talents Program, CAS, China.

The integration of multiscale and multicomponent of molecules and nanoparticles into thin films for applications requires the abilities of controlled their processing and assembly, which has been an great challenge because of the difficulty in manipulating the various materials such as small molecules, complexes, polymers, and inorganic nanomaterials through synergetic combinations of chemical or physical fabrications. Eletropolymerization is of great significance to fabricate polymeric film materials straight on the conductive substrates with tunable morphologies and thicknesses. However, unlimited electrochemical reactions(polymerization) have been usually leading to disadvantageous in ill-defined structure and highly doped state. Thanks to finding of exceptional electrochemical reaction (oligomerization) of N-alkylcarbazole, electrochemical layer by layer assembly has emerged as a promising strategy for a wide library of applications. The capability of this strategy can manipulate various molecules and nanoparticles into the scale and component controllable thin films. Unlike other electropolymerizable precursors such as aniline and thiophene, the resulting di-N-alkylcarbazole is transparent in the visible light region and thus does not impair the intrinsic properties of the components in the film. This account highlights of the typical findings in investigating both single- and multi-components thin films as a forum for discussing new opportunities in exploiting novel designs and applications of optical thin films.
- Layer-by-layer assembly,
- Carbazole,
- Electropolymerization,
- Optical films,
- Devices
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