Growth and doping of fullerene single crystals

Fullerene single crystals were obtained through physical vapor transport (PVT) and solution growth. The equipment used for the PVT grown crystals was a vacuum furnace and the equipments used for solution growth were personally set up by the author. The solvent used for solution growth is commerciall...

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Main Author: Pang, Geraldine Qiao Yi
Other Authors: Christian Leo Kloc
Format: Final Year Project
Language:English
Published: 2011
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Online Access:http://hdl.handle.net/10356/44623
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-446232023-03-04T15:36:17Z Growth and doping of fullerene single crystals Pang, Geraldine Qiao Yi Christian Leo Kloc School of Materials Science and Engineering DRNTU::Science Fullerene single crystals were obtained through physical vapor transport (PVT) and solution growth. The equipment used for the PVT grown crystals was a vacuum furnace and the equipments used for solution growth were personally set up by the author. The solvent used for solution growth is commercially available naphthalene which came in the raw form of moth balls. It is the first known attempt made to grow fullerene single crystals with naphthalene solvent as there were no literature works on it previously. Crystals from the PVT method and solution growth method were compared against each other through a series of characterization methods. The crystals obtained from solution growth were predominantly hexagonal-shaped and the largest crystal was 0.659mm while PVT crystals had a variety of shapes. After varying certain parameters of the solution growth experiment, the crystals grown from naphthalene solvent were found to be of comparable surface quality when viewed under a scanning electron microscope. Raman and Fourier Transformed Infra-Red spectroscopy was also applied to identify the chemical bonds present in both samples and the spectra of both crystals from the different growth methods were similar, indicating that the type of bonds present in these crystals are identical. The powder x-ray diffraction showed that the solution phase grown and PVT grown crystals were of face-centered cubic phase. In addition, SCXRD performed suggested that crystals from solution growth could be of rhombohedral phase and the PVT grown crystals were of face-centered cubic phase. The anomaly in results is due to twinning along the c-direction of the solution grown C60 single crystals resulting in the discrepancy. C60 crystals from the solution growth and PVT methods are essentially both FCC phase but SCXRD helped to reveal the twinning phenomenon in the solution grown crystals which was largely absent in PVT grown crystals. Bachelor of Engineering (Materials Engineering) 2011-06-02T08:42:38Z 2011-06-02T08:42:38Z 2011 2011 Final Year Project (FYP) http://hdl.handle.net/10356/44623 en Nanyang Technological University 53 p. application/pdf
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic DRNTU::Science
spellingShingle DRNTU::Science
Pang, Geraldine Qiao Yi
Growth and doping of fullerene single crystals
description Fullerene single crystals were obtained through physical vapor transport (PVT) and solution growth. The equipment used for the PVT grown crystals was a vacuum furnace and the equipments used for solution growth were personally set up by the author. The solvent used for solution growth is commercially available naphthalene which came in the raw form of moth balls. It is the first known attempt made to grow fullerene single crystals with naphthalene solvent as there were no literature works on it previously. Crystals from the PVT method and solution growth method were compared against each other through a series of characterization methods. The crystals obtained from solution growth were predominantly hexagonal-shaped and the largest crystal was 0.659mm while PVT crystals had a variety of shapes. After varying certain parameters of the solution growth experiment, the crystals grown from naphthalene solvent were found to be of comparable surface quality when viewed under a scanning electron microscope. Raman and Fourier Transformed Infra-Red spectroscopy was also applied to identify the chemical bonds present in both samples and the spectra of both crystals from the different growth methods were similar, indicating that the type of bonds present in these crystals are identical. The powder x-ray diffraction showed that the solution phase grown and PVT grown crystals were of face-centered cubic phase. In addition, SCXRD performed suggested that crystals from solution growth could be of rhombohedral phase and the PVT grown crystals were of face-centered cubic phase. The anomaly in results is due to twinning along the c-direction of the solution grown C60 single crystals resulting in the discrepancy. C60 crystals from the solution growth and PVT methods are essentially both FCC phase but SCXRD helped to reveal the twinning phenomenon in the solution grown crystals which was largely absent in PVT grown crystals.
author2 Christian Leo Kloc
author_facet Christian Leo Kloc
Pang, Geraldine Qiao Yi
format Final Year Project
author Pang, Geraldine Qiao Yi
author_sort Pang, Geraldine Qiao Yi
title Growth and doping of fullerene single crystals
title_short Growth and doping of fullerene single crystals
title_full Growth and doping of fullerene single crystals
title_fullStr Growth and doping of fullerene single crystals
title_full_unstemmed Growth and doping of fullerene single crystals
title_sort growth and doping of fullerene single crystals
publishDate 2011
url http://hdl.handle.net/10356/44623
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