Journal
JOURNAL OF MATERIALS CHEMISTRY C
Volume 8, Issue 27, Pages 9252-9261Publisher
ROYAL SOC CHEMISTRY
DOI: 10.1039/d0tc02028a
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Funding
- UDSMM, ULCO
- ULCO
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Triphenylene-core grafted 2,3,6,7,10,11-hexabutyloxytriphenylene (HAT4) discotic mesogens were synthesized and their composite matrices have been prepared by dispersing different concentrations of carbon dots (C-dots). The structural, morphological, and charge transport behaviors of the neat and composite matrices have been studied as a function of dopant concentration. The triphenylene matrix remains invariant after the controlled dispersion of quantum sized C-dots; nevertheless, the electronic and transport properties of the neat matrix have been changed significantly. The percolated network of C-dots in the HAT4 matrix offers 10(2)and 10(3)times higher conduction current in the columnar and crystalline phases, respectively; however, the charge carrier mobility is found to be reduced due to the surface-recombination and the change in the columnar ordering. In the Col(hp)phase, the HAT4/C-dots matrix exhibited maximum conductivity and charge mobility of the order of 10(-6)S m(-1)and 10(-2)cm(2)V(-1)s(-1), respectively. The superior behavior of the HAT4/C-dot composites, which could overcome the poor conductivity of organic semiconductors, indicates their potential for practical applications in organic semiconducting devices and optoelectronics.
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