Citation
Nielander, Adam Christopher (2016) Chemical and Electrochemical Behavior of Graphene-Covered Silicon Photoanodes. Dissertation (Ph.D.), California Institute of Technology. doi:10.7907/Z92R3PNB. https://resolver.caltech.edu/CaltechTHESIS:03042016-133215131
Abstract
This dissertation describes efforts over the last five years to develop protective layers for semiconductor photoelectrodes based on monolayer or few-layer graphene sheets. Graphene is an attractive candidate for a protective layer because of its known chemical inertness, transparency, ease of deposition, and limited number of electronic states. Monolayer graphene was found to effectively inhibit loss of photocurrent over 1000 seconds at n-Si/aqueous electrolyte interfaces that exhibit total loss over photocurrent over 100 seconds. Further, the presence of graphene was found to effect only partial Fermi level pinning at the Si/graphene interface with respect to a range of nonaqueous electrolytes. Fluorination of graphene was found to extend the stability imparted on n-Si by the monolayer sheet in aqueous Fe(CN)63-/4- electrolyte to over 100,000 seconds. It was demonstrated that the stability of the photocurrent of n-Si/fluorinated graphene/aqueous electrolyte interfaces relative to n-Si/aqueous electrolyte interfaces is likely attributable to the inhibition of oxidation of the silicon surface.
This dissertation also relates efforts to describe and define terminology relevant to the field of photoelectrochemistry and solar fuels production. Terminology describing varying interfaces employed in electrochemical solar fuels devices are defined, and the research challenges associated with each are discussed. Methods for determining the efficiency of varying photoelectrochemical and solar-fuel-producing cells from the current-voltage behavior of the individual components of such a device without requiring the device be constructed are described, and a range of commonly employed performance metrics are explored.
Item Type: | Thesis (Dissertation (Ph.D.)) | ||||
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Subject Keywords: | Photoelectrochemistry; Graphene; Solar Energy Conversion; Solar Fuels | ||||
Degree Grantor: | California Institute of Technology | ||||
Division: | Chemistry and Chemical Engineering | ||||
Major Option: | Chemistry | ||||
Thesis Availability: | Public (worldwide access) | ||||
Research Advisor(s): |
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Thesis Committee: |
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Defense Date: | 11 January 2016 | ||||
Non-Caltech Author Email: | ANieland (AT) gmail.com | ||||
Record Number: | CaltechTHESIS:03042016-133215131 | ||||
Persistent URL: | https://resolver.caltech.edu/CaltechTHESIS:03042016-133215131 | ||||
DOI: | 10.7907/Z92R3PNB | ||||
ORCID: |
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Default Usage Policy: | No commercial reproduction, distribution, display or performance rights in this work are provided. | ||||
ID Code: | 9603 | ||||
Collection: | CaltechTHESIS | ||||
Deposited By: | Adam Nielander | ||||
Deposited On: | 18 Mar 2016 20:53 | ||||
Last Modified: | 04 Oct 2019 00:12 |
Thesis Files
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PDF (Full thesis)
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PDF (Thesis - Part 1/13; Title Page )
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PDF (Thesis - Part 2/13; Acknowledgements)
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PDF (Thesis - Part 3/13; Abstract)
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PDF (Thesis - Part 4/13; Table of Contents)
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PDF (Thesis - Part 5/13; List of Figures and Schemes)
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PDF (Thesis - Part 6/13; List of Tables)
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PDF (Thesis - Part 7/13; Chapter 1 - Introduction)
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PDF (Thesis - Part 8/13; Chapter 2 - Taxonomy)
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PDF (Thesis - Part 9/13; Chapter 3 - Efficiency Methods)
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PDF (Thesis - Part 10/13; Chapter 4 - Single Layer Graphene)
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PDF (Thesis - Part 11/13; Chapter 5 - Fluorinated Graphene)
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PDF (Thesis - Part 12/13; Chapter 6 - Additional work)
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PDF (Thesis - Part 13/13; About the Author)
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