ASU Electronic Theses and Dissertations
This collection includes most of the ASU Theses and Dissertations from 2011 to present. ASU Theses and Dissertations are available in downloadable PDF format; however, a small percentage of items are under embargo. Information about the dissertations/theses includes degree information, committee members, an abstract, supporting data or media.
In addition to the electronic theses found in the ASU Digital Repository, ASU Theses and Dissertations can be found in the ASU Library Catalog.
Dissertations and Theses granted by Arizona State University are archived and made available through a joint effort of the ASU Graduate College and the ASU Libraries. For more information or questions about this collection contact or visit the Digital Repository ETD Library Guide or contact the ASU Graduate College at email@example.com.
- 4 English
- 4 Chemistry
- 1 Artificial Photosynthesis
- 1 Carotenoid
- 1 Chromophores
- 1 DFT calculations
- 1 Energy
- 1 Excitation Energy Transfer
- 1 Organic chemistry
- 1 Photochemistry
- 1 Photoelectrochemical tandem cells
- 1 Photoprotection
- 1 Phthalocyanine
- 1 Porphyrins and phthalocyanines
- 1 Proton Reduction
- 1 Synthesis
- 1 Triplet Energy Transfer
- 1 Water Oxidation
- 1 Water splitting
- 1 donor-wire-acceptor
- 1 dye-sensitized solar cells
- 1 molecular heterojunction polymer
- 1 photoinduced electron transfer
- 1 phthalocyanine
- 1 porphyrin
Photosynthesis, one of the most important processes in nature, has provided an energy basis for nearly all life on Earth, as well as the fossil fuels we use today to power modern society. This research aims to mimic the photosynthetic process of converting incident solar energy into chemical potential energy in the form of a fuel via systems capable of carrying out photo-induced electron transfer to drive the production of hydrogen from water. Herein is detailed progress in using photo-induced stepwise electron transfer to drive the oxidation of water and reduction of protons to hydrogen. In the design, use of …
- Bergkamp, Jesse J, Moore, Ana L, Mariño-Ochoa, Ernesto, et al.
- Created Date
Natural photosynthesis dedicates specific proteins to achieve the modular division of the essential roles of solar energy harvesting, charge separation and carrier transport within natural photosynthesis. The modern understanding of the fundamental photochemistry by which natural photosynthesis operates is well advanced and solution state mimics of the key photochemical processes have been reported previously. All of the early events in natural photosynthesis responsible for the conversion of solar energy to electric potential energy occur within proteins and phospholipid membranes that act as scaffolds for arranging the active chromophores. Accordingly, for creating artificial photovoltaic (PV) systems, scaffolds are required to imbue …
- Watson, Brian Lyndon, Gust, Devens, Gould, Ian, et al.
- Created Date
Solar energy is a promising alternative for addressing the world's current and future energy requirements in a sustainable way. Because solar irradiation is intermittent, it is necessary to store this energy in the form of a fuel so it can be used when required. The light-driven splitting of water into oxygen and hydrogen (a useful chemical fuel) is a fascinating theoretical and experimental challenge that is worth pursuing because the advance of the knowledge that it implies and the availability of water and sunlight. Inspired by natural photosynthesis and building on previous work from our laboratory, this dissertation focuses on …
- Mendez-Hernandez, Dalvin D., Moore, Ana L, Mujica, Vladimiro, et al.
- Created Date
The first chapter reviews three decades of artificial photosynthetic research conducted by the A. Moore, T. Moore, and D. Gust research group. Several carotenoid (Car) and tetrapyrrole containing molecules were synthesized and investigated for excitation energy transfer (EET), photoregulation, and photoprotective functions. These artificial photosynthetic compounds mimicked known processes and investigated proposed mechanisms in natural systems. This research leads to a greater understanding of photosynthesis and design concepts for organic based solar energy conversion devices. The second and third chapters analyze the triplet energy transfer in carotenoid containing dyads. Transient absorption, time-resolved FTIR and resonance Raman spectra revealed that in …
- Wongcarter, Katherine, Moore, Ana L, Gust, Devens, et al.
- Created Date