X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions

The interaction of radiation and matter plays a crucial role in studies of aqueous solutions. Depending on the type of radiation, it can either be used a probe or as a source of excitation. With X-ray spectroscopy, high-energy photons are tuned to excite core electrons, giving insight into electroni...

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Main Author: England, Alice Heller
Other Authors: Saykally, Richard J
Format: Other/Unknown Material
Language:English
Published: eScholarship, University of California 2011
Subjects:
Chemistry
Carbonic acid
Online Access:https://escholarship.org/uc/item/8sn14153
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spelling ftcdlib:oai:escholarship.org/ark:/13030/qt8sn14153 2023-05-15T15:52:55+02:00 X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions England, Alice Heller Saykally, Richard J 2011-01-01 application/pdf https://escholarship.org/uc/item/8sn14153 en eng eScholarship, University of California qt8sn14153 https://escholarship.org/uc/item/8sn14153 public Chemistry etd 2011 ftcdlib 2020-06-06T07:55:35Z The interaction of radiation and matter plays a crucial role in studies of aqueous solutions. Depending on the type of radiation, it can either be used a probe or as a source of excitation. With X-ray spectroscopy, high-energy photons are tuned to excite core electrons, giving insight into electronic structure and the local chemical environment of both the solvent and solute. In pulse radiolysis, an accelerated electron beam is used as an excitation source to create transient radiolytic products. Here, I present detailed studies using both X-rays and electron beams to investigate aqueous solutions and phenomena.In Chapter 2, I discuss the probing of the pH-dependent aqueous carbonate system by soft X-rays. Spectral changes between carbonate, bicarbonate, carbonic acid, and carbon dioxide are analyzed by comparison with theoretically computed spectra. I also give an introduction to Near Edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy and discuss experimental details for the design and employment of liquid microjets.Chapter 3 describes a variety of different projects aimed at expanding the capabilities of the X-ray absorption experiments. These new directions include characterizing free radicals in solution, developing a new detection technique, exploring X-ray induced damage to solid biomolecules, and potentially investigating unusual nitrogen compounds.In Chapter 4, I explore the interaction of high-energy electrons (8 MeV) with aqueous nickel (II) solutions. Pulse radiolysis combined with UV-visible absorption spectroscopy is used to investigate the kinetics of Ni2+ with water radiolysis products. The rate constant for the solvated electron reaction with Ni2+ is measured up to 300°C, and the electronic spectrum for the monovalent nickel ion is also recorded at high temperatures. Other/Unknown Material Carbonic acid University of California: eScholarship
institution Open Polar
collection University of California: eScholarship
op_collection_id ftcdlib
language English
topic Chemistry
spellingShingle Chemistry
England, Alice Heller
X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
topic_facet Chemistry
description The interaction of radiation and matter plays a crucial role in studies of aqueous solutions. Depending on the type of radiation, it can either be used a probe or as a source of excitation. With X-ray spectroscopy, high-energy photons are tuned to excite core electrons, giving insight into electronic structure and the local chemical environment of both the solvent and solute. In pulse radiolysis, an accelerated electron beam is used as an excitation source to create transient radiolytic products. Here, I present detailed studies using both X-rays and electron beams to investigate aqueous solutions and phenomena.In Chapter 2, I discuss the probing of the pH-dependent aqueous carbonate system by soft X-rays. Spectral changes between carbonate, bicarbonate, carbonic acid, and carbon dioxide are analyzed by comparison with theoretically computed spectra. I also give an introduction to Near Edge X-ray Absorption Fine Structure (NEXAFS) spectroscopy and discuss experimental details for the design and employment of liquid microjets.Chapter 3 describes a variety of different projects aimed at expanding the capabilities of the X-ray absorption experiments. These new directions include characterizing free radicals in solution, developing a new detection technique, exploring X-ray induced damage to solid biomolecules, and potentially investigating unusual nitrogen compounds.In Chapter 4, I explore the interaction of high-energy electrons (8 MeV) with aqueous nickel (II) solutions. Pulse radiolysis combined with UV-visible absorption spectroscopy is used to investigate the kinetics of Ni2+ with water radiolysis products. The rate constant for the solvated electron reaction with Ni2+ is measured up to 300°C, and the electronic spectrum for the monovalent nickel ion is also recorded at high temperatures.
author2 Saykally, Richard J
format Other/Unknown Material
author England, Alice Heller
author_facet England, Alice Heller
author_sort England, Alice Heller
title X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
title_short X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
title_full X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
title_fullStr X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
title_full_unstemmed X-ray Spectroscopy and Pulse Radiolysis of Aqueous Solutions
title_sort x-ray spectroscopy and pulse radiolysis of aqueous solutions
publisher eScholarship, University of California
publishDate 2011
url https://escholarship.org/uc/item/8sn14153
genre Carbonic acid
genre_facet Carbonic acid
op_relation qt8sn14153
https://escholarship.org/uc/item/8sn14153
op_rights public
_version_ 1766388013633372160

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