Effect of Linear Alcohol Molecular Size on the Self-Assembly of Fullerene Whiskers

Authors

Maher S. Amer, Wright State University - Main CampusFollow
T. Kyle Todd, Wright State University - Main Campus
John D. Busbee

Document Type

Article

Publication Date

10-17-2011

Abstract

The recent development of self-assembled fullerene whiskers and wires has created an enormous potential and resolved a serious challenge for utilizing such unique class of carbon material in advanced nano-scale, molecular-based electronic, optical, and thermal devices. In this paper we investigate, the self-assembly of C₆₀ molecules into one-dimensional whiskers using a series of linear alcohols H(CH₂)_nOH, with n changing from 1 (methanol) to 3 (isopropyl alcohol), to elucidate the effect of alcohol molecular size on the size distribution of the self-assemble fullerene whiskers. Our results show that the length of the produced fullerene whiskers is affected by the molecular size of the alcohol used in the process. The crucial role played by solvent/alcohol interaction in the assembly process is discussed. In addition, Raman spectroscopy measurements support the notion that the self-assembled whiskers are primarily held by depletion forces and no evidence of fullerene polymerization was observed.

Repository Citation

Amer, M. S., Todd, T. K., & Busbee, J. D. (2011). Effect of Linear Alcohol Molecular Size on the Self-Assembly of Fullerene Whiskers. Materials Chemistry and Physics, 130 (1-2), 90-94.
https://corescholar.libraries.wright.edu/mme/269

DOI

10.1016/j.matchemphys.2011.05.070