Exploring high-temperature graphitisation using an atomic adsorption spectrometer
Graphite, a naturally occurring mineral, is essential in many modern technologies. It is routinely manufactured in an expensive, energy-intensive and wasteful process. This work explores the fundamentals of graphite synthesis. To facilitate this, a new technique is developed to rapidly achieve up to...
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| Format: | Thesis |
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Curtin University
2022
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| Online Access: | http://hdl.handle.net/20.500.11937/92913 |
| Summary: | Graphite, a naturally occurring mineral, is essential in many modern technologies. It is routinely manufactured in an expensive, energy-intensive and wasteful process. This work explores the fundamentals of graphite synthesis. To facilitate this, a new technique is developed to rapidly achieve up to 3000 °C. New insights into the mechanism of graphite formation are established, in particular identification of key defects and nanostructures. Kinetics studies reveal that graphite formation is more rapid than traditionally considered. |
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