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Nanostructured electrodes for photoelectrochemical water splitting

Burch, Henry Arthur (2016)
Ph.D. thesis, University of Birmingham.

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Nanostructured MoS\(_2\) and ZnFe\(_2\)O\(_4\) were synthesised and tested as catalytic water splitting photoelectrodes. MoS\(_2\) was nanopatterned from a bulk crystal using a combination of nanosphere lithography and plasma etching. Three morphologies were produced: nanospheres deposited with interstices between them produced nanopillars, nanospheres squashed into hexagons imprinted a nanowell pattern, and linked nanopillars resulted from parts of each. The MoS\(_2\) was tested as a photocathode and morphologies with linkages between features had improved catalysis than those without. This was attributed to the layered structure of MoS\(_2\). These samples degraded in air to MoSxO(\(_2\)\(_-\)\(_x\)), and an electrochemical technique utilising Na\(_2\)S\(_2\)O\(_3\) was used to re-sulfidate the MoSxO(\(_2\)\(_-\)\(_x\)). The technique decreased the onset potential from -0.27 V SHE to -0.17 V SHE, and the Tafel slope from 282 mV dec\(^{-1}\) to 87 mV dec\(^{-1}\).
ZnFe\(_2\)O\(_4\) electrodes were deposited by AACVD from a precursor molecule. The deposition solvent composition was systematically altered between methanol and ethanol to examine its effect on the nanostructure. ZnFe\(_2\)O\(_4\) electrodes deposited from predominantely methanol solvent had compact morphologies due to heterogenous nucleation, while the electrodes deposited from predominantly ethanol solvent had high surface area structures due to homogeneous nucleation. The more exothermic enthalpy of combustion of ethanol was deemed responsible.

Type of Work:Ph.D. thesis.
Supervisor(s):Palmer, Richard E. and Rees, Neil
School/Faculty:Colleges (2008 onwards) > College of Engineering & Physical Sciences
Department:School of Chemical Engineering
Subjects:TP Chemical technology
Institution:University of Birmingham
ID Code:6903
This unpublished thesis/dissertation is copyright of the author and/or third parties. The intellectual property rights of the author or third parties in respect of this work are as defined by The Copyright Designs and Patents Act 1988 or as modified by any successor legislation. Any use made of information contained in this thesis/dissertation must be in accordance with that legislation and must be properly acknowledged. Further distribution or reproduction in any format is prohibited without the permission of the copyright holder.
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