Development of Nanomaterials and Technologies for Environmental Applications

This research work focused on the preparation of manganese oxide-based nanomaterials using a simple reflux method, characterization, and various applications including laboratory-scale development of emulsion and microwave (MW) photocatalysis technologies. This dissertation consists of five major se...

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Other Authors: Genuino, Homer (Creator), Suib, Steven L. (Major Advisor), Leadbeater, Nicholas E. (Associate Advisor), Angeles-Boza, Alfredo (Associate Advisor), Howell, Amy R. (Associate Advisor), Neth, Edward J. (Associate Advisor), University of Connecticut (Degree grantor)
Format: Doctoral or Postdoctoral Thesis
Language:unknown
Published: University of Connecticut 2013
Subjects:
Prudhoe Bay
Online Access:http://hdl.handle.net/11134/20002:860647900
https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860647900/datastream/TN/view/Development%20of%20Nanomaterials%20and%20Technologies%20for%20Environmental%20Applications.jpg
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spelling ftconnecticstlib:oai:oai:collections.ctdigitalarchive.org:20002_860647900 2023-05-15T18:03:39+02:00 Development of Nanomaterials and Technologies for Environmental Applications Genuino, Homer (Creator) Suib, Steven L. (Major Advisor) Leadbeater, Nicholas E. (Associate Advisor) Angeles-Boza, Alfredo (Associate Advisor) Howell, Amy R. (Associate Advisor) Neth, Edward J. (Associate Advisor) University of Connecticut (Degree grantor) 2013 application/pdf http://hdl.handle.net/11134/20002:860647900 https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860647900/datastream/TN/view/Development%20of%20Nanomaterials%20and%20Technologies%20for%20Environmental%20Applications.jpg unknown University of Connecticut In Copyright These materials are provided for educational and research purposes only. Text doctoral dissertation 2013 ftconnecticstlib 2022-05-09T15:42:36Z This research work focused on the preparation of manganese oxide-based nanomaterials using a simple reflux method, characterization, and various applications including laboratory-scale development of emulsion and microwave (MW) photocatalysis technologies. This dissertation consists of five major sections. Chapter 2 describes the enhancement of the photodegradation of toxic N-Nitrosodimethylamine (NDMA) in water using amorphous manganese oxide (AMO) and crystalline platinum manganese oxide catalysts. Results from spectroscopic, chromatographic, and voltammetric studies were interpreted to study the role of the catalysts and the reactive oxygen species that form, and the kinetics and mechanism of catalyzed NDMA photodegradation. Mixed valencies of Mn and the presence of physisorbed oxygen, which reacts with photogenerated electrons to form reactive oxygen species, played significant roles in the enhancement of the photodegradation of NDMA. Chapter 3 presents the investigation of the effects of visible and UV light on the characteristics and properties of Prudhoe Bay and South Louisiana emulsions to better understand the role of sunlight on the fate of spilled crude oils that form emulsions with a dispersant in the aquatic environment. The unique changes in emulsion properties were attributed to direct photodegradation and photooxidation of crude oil components. Chapter 4 describes the development of a novel continuous-flow reactor to investigate the synergetic effects of UV and MW radiation on TiO2 nanoparticles for the enhancement of photodegradation of Direct Red-81 and Bromothymol Blue dyes. The efficiency of the combined UV and MW radiation was higher than the sum of the isolated and corresponding thermal effects and directly proportional to the MW power and dissolved oxygen concentration. Accelerated rates of dye degradation on incorporation of MW were attributed to the generation of more hydroxyl and superoxide anion radicals and an increase in hydrophobicity of TiO2. Chapter 5 describes the synthesis of ... Doctoral or Postdoctoral Thesis Prudhoe Bay Connecticut Digital Archive
institution Open Polar
collection Connecticut Digital Archive
op_collection_id ftconnecticstlib
language unknown
description This research work focused on the preparation of manganese oxide-based nanomaterials using a simple reflux method, characterization, and various applications including laboratory-scale development of emulsion and microwave (MW) photocatalysis technologies. This dissertation consists of five major sections. Chapter 2 describes the enhancement of the photodegradation of toxic N-Nitrosodimethylamine (NDMA) in water using amorphous manganese oxide (AMO) and crystalline platinum manganese oxide catalysts. Results from spectroscopic, chromatographic, and voltammetric studies were interpreted to study the role of the catalysts and the reactive oxygen species that form, and the kinetics and mechanism of catalyzed NDMA photodegradation. Mixed valencies of Mn and the presence of physisorbed oxygen, which reacts with photogenerated electrons to form reactive oxygen species, played significant roles in the enhancement of the photodegradation of NDMA. Chapter 3 presents the investigation of the effects of visible and UV light on the characteristics and properties of Prudhoe Bay and South Louisiana emulsions to better understand the role of sunlight on the fate of spilled crude oils that form emulsions with a dispersant in the aquatic environment. The unique changes in emulsion properties were attributed to direct photodegradation and photooxidation of crude oil components. Chapter 4 describes the development of a novel continuous-flow reactor to investigate the synergetic effects of UV and MW radiation on TiO2 nanoparticles for the enhancement of photodegradation of Direct Red-81 and Bromothymol Blue dyes. The efficiency of the combined UV and MW radiation was higher than the sum of the isolated and corresponding thermal effects and directly proportional to the MW power and dissolved oxygen concentration. Accelerated rates of dye degradation on incorporation of MW were attributed to the generation of more hydroxyl and superoxide anion radicals and an increase in hydrophobicity of TiO2. Chapter 5 describes the synthesis of ...
author2 Genuino, Homer (Creator)
Suib, Steven L. (Major Advisor)
Leadbeater, Nicholas E. (Associate Advisor)
Angeles-Boza, Alfredo (Associate Advisor)
Howell, Amy R. (Associate Advisor)
Neth, Edward J. (Associate Advisor)
University of Connecticut (Degree grantor)
format Doctoral or Postdoctoral Thesis
title Development of Nanomaterials and Technologies for Environmental Applications
spellingShingle Development of Nanomaterials and Technologies for Environmental Applications
title_short Development of Nanomaterials and Technologies for Environmental Applications
title_full Development of Nanomaterials and Technologies for Environmental Applications
title_fullStr Development of Nanomaterials and Technologies for Environmental Applications
title_full_unstemmed Development of Nanomaterials and Technologies for Environmental Applications
title_sort development of nanomaterials and technologies for environmental applications
publisher University of Connecticut
publishDate 2013
url http://hdl.handle.net/11134/20002:860647900
https://digitalcollections.ctstatelibrary.org/islandora/object/20002%3A860647900/datastream/TN/view/Development%20of%20Nanomaterials%20and%20Technologies%20for%20Environmental%20Applications.jpg
genre Prudhoe Bay
genre_facet Prudhoe Bay
op_rights In Copyright
These materials are provided for educational and research purposes only.
_version_ 1766174574665269248

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