Browsing by Author "Macdonald, Janet E"
Now showing items 1-7 of 7
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Spear, Nathan James; 0000-0002-0881-6798 (2023-02-22)Department: Interdisciplinary Materials ScienceA large class of nonlinear materials show enhanced harmonic generation by exciting the localized surface plasmonic resonance (LSPR) of metallic or semiconducting nanoparticles. Moreover, material systems containing coupled ...
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Fort, Madeleine (2023-03-27)Department: Interdisciplinary Materials ScienceThis thesis examines charge transfer from semiconductor nanocrystals. A discussion of charge transfer mechanisms and their importance to renewable technologies is given. The relationship between charge transfer and the ...
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Rhodes, Jordan Marcus; 0000-0003-4853-9243 (2020-04-03)Department: ChemistryThe iron sulfides are the most earth abundant naturally occurring metal sulfides with a wide range of properties and thereby applications. However, relative to other metal chalcogenides, the iron-sulfur system is poorly ...
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Penk, Danielle Nicole; 0000-0001-5575-5847 (2023-01-09)Department: ChemistrySince the discovery that nonsteroidal anti-inflammatory drugs (NSAIDs) prevent pain, swelling, and inflammation by inhibiting the enzymes cyclooxygenase-1 (COX-1) and cyclooxygenase-2 (COX-2), there has been interest in ...
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Koziel, Alexandra Claire; 0000-0001-7960-9588 (2024-03-19)Department: ChemistryAs nanochemistry grows as a field and the applications of nanomaterials emerge, the importance of understanding what happens in the reaction flask during synthesis—thinking smaller than the nanoscale level to the molecular ...
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Koziel, Alexandra Claire; 0000-0001-7960-9588 (2024-03-19)Department: ChemistryAs nanochemistry grows as a field and the applications of nanomaterials emerge, the importance of understanding what happens in the reaction flask during synthesis—thinking smaller than the nanoscale level to the molecular ...
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Bairan Espano, Jeremy Randy; 0000-0001-7571-337X (2024-03-18)Department: Interdisciplinary Materials ScienceThe identity and arrangement of atoms determine the properties of all crystalline solids, and when the identity of the atoms is the same, multiple arrangements and different crystalline structures can still exist. These ...