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Carbon Nanospheres Fabricated by Pyrolysis of Micelles Formed in Pectin Gels

Published online by Cambridge University Press:  31 January 2011

Peter Y. Wong ,
Brendan P. O'Brien ,
Bruce Panilaitis  and
Christian Irwin
Peter Y. Wong
Affiliation:
peter.wong@tufts.edu, Tufts University, Mechanical Engineering, Medford, Massachusetts, United States
Brendan P. O'Brien
Affiliation:
viccuus@cluemail.com, Tufts University, Mechanical Engineering, Medford, Massachusetts, United States
Bruce Panilaitis
Affiliation:
bruce.Panilaitis@tufts.edu, Tufts University, Biomedical Engineering, Medford, Massachusetts, United States
Christian Irwin
Affiliation:
christian.irwin@alumni.tufts.edu, Tufts University, Mechanical Engineering, Medford, Massachusetts, United States
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Abstract

Formation of carbon nanospheres is typically relegated to two costly methods. Chemical vapor deposition produces uniform spheres safely anchored to a substrate but at the cost of being slow and expensive to run. Arc discharge of a carbon target produces soot containing a low density of random spheres that must be laboriously sorted. An alternative approach is to fabricate carbon nanospheres through the pyrolysis of organic feedstock. This paper presents the findings from an investigation into using pectin as a pre-cursor material for pyrolysis. The pectin is combined with different saccharides - sucrose, dextrose, and fructose and processed in aqueous solution until a gel set. The gel is then thermally processed in a nitrogen environment at 500 °C. The resultant carbon material is examined under SEM. Images confirm the formation of nanospheres and other microscale and nanoscale structures. The pectin, a naturally derived product from plant materials, is a renewable source of materials which can be used to form nanotechnologies for many energy-related applications.

Keywords

pyrolysisnanoscaleorganic
Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1219: Symposium AA – Renewable Biomaterials and Bioenergy – Current Developments and Challenges , 2009 , 1219-AA04-03
Copyright
Copyright © Materials Research Society 2010

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