Thesis.pdf (13.66 MB)
Engineering the Two-Dimensional Hole Gas on Hydrogen-Terminated Diamond by Transition Metal Oxides Towards Diamond Surface Electronics
thesis
posted on 2020-10-30, 03:07 authored by Kaijian XingSubmitted in total fulfilment of the requirement for the degree of Doctor of Philosophy to the Department of Chemistry and Physics, School of Molecular Sciences, College of Science, Health and Engineering, La Trobe University, Victoria, Australia.
This
thesis was a recipient of the Nancy Millis Award for theses of exceptional
merit.
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School
- School of Molecular Sciences
Center or Department
Department of Chemistry and PhysicsThesis type
- Ph. D.
Awarding institution
La Trobe UniversityYear Awarded
2020Rights Statement
This thesis contains third party copyright material which has been reproduced here with permission. Any further use requires permission of the copyright owner. The thesis author retains all proprietary rights (such as copyright and patent rights) over all other content of this thesis, and has granted La Trobe University permission to reproduce and communicate this version of the thesis. The author has declared that any third party copyright material contained within the thesis made available here is reproduced and communicated with permission. If you believe that any material has been made available without permission of the copyright owner please contact us with the details.Usage metrics
Keywords
thesisdiamondsurface conductivitsurface transfer dopingDFTdensity functional theorymolybdenum trioxidevanadium pentoxideOhmic contacthydrogen-terminated diamondpalladiumtransmission line methodSchottky barrier heightspin-orbit interactionRashba effectquantum coherent backscattering2DHG2D hole gasElectrochemistryElectroanalytical ChemistryInorganic Chemistry
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