Inorganic nanomaterials for renewable energy generation /
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(Published version)
Date
2015
Authors
Macdonald, Thomas,
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Type:
thesis
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Abstract
The versatile properties of inorganic nanomaterials make them favourable for a variety of renewable energy applications, a number of which require flexible synthetic procedures. Manipulating nanoarchitectures can lead to tailor-made structures improving optoelectronic properties, which results in increased device performance. In this work, a diverse range of inorganic systems based upon quantum dots (QDs) and one-dimensional (1D) nanofibres are investigated for the field of artificial photosynthesis and photovoltaic (PV) devices.
School/Discipline
University of South Australia. Ian Wark Research Institute.
Ian Wark Research Institute.
Ian Wark Research Institute.
Dissertation Note
Thesis (PhD(Engineering (Minerals and Materials)))--University of South Australia, 2015.
Provenance
Copyright 2015 Thomas MacDonald.
Description
1 ethesis (xii, 132 pages) :
colour illustrations.
Includes bibliographical references (pages 101-105)
colour illustrations.
Includes bibliographical references (pages 101-105)
Access Status
506 0#$fstar $2Unrestricted online access