SURFACE CHEMISTRY CONTROL OF 2D NANOMATERIAL MORPHOLOGIES, OPTOELECRONIC RESPONSES, AND PHYSICOCHEMICAL PROPERTIES
This dissertation describes how the surface chemistries of 2D nanomaterials can be modified to alter overall material properties. Specifically, through a focus of the ligand-surface atom bonding in addition to the overall ligand structure we highlight the ability to direct morphological outcomes in lead free halide perovskites, maximize optoelectronic responses in substoichiometric tungsten oxide, and alter physicochemical properties titanium carbide MXenes.
History
Degree Type
- Doctor of Philosophy
Department
- Chemistry
Campus location
- Indianapolis
Advisor/Supervisor/Committee Chair
Rajesh SardarAdditional Committee Member 2
Frédérique DeissAdditional Committee Member 3
Eric LongAdditional Committee Member 4
Ian WebbUsage metrics
Categories
- Inorganic chemistry not elsewhere classified
- Nanochemistry
- Supramolecular chemistry
- Optical properties of materials
- Physical properties of materials
- Macromolecular and materials chemistry not elsewhere classified
- Transition metal chemistry
- Inorganic materials (incl. nanomaterials)
- Macromolecular materials
- Structure and dynamics of materials
- Colloid and surface chemistry
Keywords
Localized Surface Plasmon ResonanceMXenesWO3-x2D nanomaterialsperovskitelead-free perovskitesurface chemistrycovalent attachment2D morphologyoptoelectronic characteristicsInorganic ChemistryNanochemistry and Supramolecular ChemistryOptical Properties of MaterialsPhysical Chemistry of MaterialsSynthesis of MaterialsTransition Metal ChemistryChemical Characterisation of MaterialsColloid and Surface Chemistry
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