The Structure Of The Hydrated Electron In Bulk And At Interfaces

The Structure of the Hydrated Electron in Bulk and at Interfaces

Author : Jennifer Ryan Casey

Publisher :

Page : 115 pages

File Size : 47,54 MB

Release : 2014

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ISBN :

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Since its discovery over fifty years ago, the hydrated electron has been the subject of much interest. Hydrated electrons, which are free electrons in water, are found in fields ranging from biochemistry to radiation chemistry, so it is important that we understand the structure and dynamics of this species. Because of its high reactivity, the hydrated electron's structure has proven difficult to pin down, especially its molecular details. One-electron mixed quantum/classical molecular dynamics simulations have proven useful in helping elucidate the structure of the hydrated electron. The picture most commonly presented from these studies is one of the electron residing in a cavity, disrupting the local water structure much like an anion the size of bromide. Our group has recently proposed a completely different structure for the hydrated electron, which arose from rigorous calculations of a new electron-water potential. The picture that emerged was of an electron that does not occupy a cavity but instead draws water within itself; this non-cavity electron resides in a region of enhanced water density. The one-electron cavity and non-cavity models all predict similar experimental observables that probe the electronic structure of the hydrated electron, such as the optical absorption spectrum, which makes it difficult to determine which model most accurately describes the true structure of the hydrated electron. In this thesis, we work to calculate experimental observables for various simulated cavity and non-cavity models that are particularly sensitive to the local water structure near the electron, in an effort to distinguish the various models from each other. Two particular observables we are interested in are the resonance Raman spectrum and the temperature dependent optical absorption spectrum of the hydrated electron. We find that for both of these experiments, only the non-cavity model has qualitative agreement with experiment; the cavity models miss the experimental temperature dependence in the optical absorption spectrum and show the wrong trends in the resonance Raman spectrum. We also explore the differences between non-cavity and cavity models by quantifying the electron-water overlap, referring to the non-cavity model as an `inverse plum pudding, ' where the water molecules are embedded within the electron density. Finally, we examine hydrated electrons in the presence of an air/water interface. Experiments indicate that most likely electrons do not reside at the surface, and if they do, they have structural and dynamical properties reminiscent of the bulk. Our calculated Potentials of Mean Force indicate that both cavity and non-cavity electrons prefer to be solvated by the bulk, but that the cavity electron has a local free energy minimum near the surface. These calculated interfacial cavity electrons behave very differently than cavity electrons in the bulk, in direct contrast to experimental evidence. From the work presented in this thesis, it is clear that the non-cavity electron is the most appropriate one-electron model we have for the structure of the hydrated electron.



Encyclopedia of Interfacial Chemistry

Author :

Publisher : Elsevier

Page : 5276 pages

File Size : 17,89 MB

Release : 2018-03-29

Category : Science

ISBN : 0128098945

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Book Description

Encyclopedia of Interfacial Chemistry: Surface Science and Electrochemistry, Seven Volume Set summarizes current, fundamental knowledge of interfacial chemistry, bringing readers the latest developments in the field. As the chemical and physical properties and processes at solid and liquid interfaces are the scientific basis of so many technologies which enhance our lives and create new opportunities, its important to highlight how these technologies enable the design and optimization of functional materials for heterogeneous and electro-catalysts in food production, pollution control, energy conversion and storage, medical applications requiring biocompatibility, drug delivery, and more. This book provides an interdisciplinary view that lies at the intersection of these fields. Presents fundamental knowledge of interfacial chemistry, surface science and electrochemistry and provides cutting-edge research from academics and practitioners across various fields and global regions



Advances in Chemical Physics, Volume 155

Author : Stuart A. Rice

Publisher : John Wiley & Sons

Page : 333 pages

File Size : 29,22 MB

Release : 2014-03-18

Category : Science

ISBN : 111875591X

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Book Description

The cutting edge of research in chemical physics Each volume of the Advances in Chemical Physics series discusses aspects of the state of diverse subjects in chemical physics and related fields, with chapters written by top researchers in the field. Reviews published in Advances in Chemical Physics are typically longer than those published in journals, providing the space needed for readers to fully grasp the topic, including fundamentals, latest discoveries, applications, and emerging avenues of research. Volume 155 explores: Modeling viral capsid assembly Charges at aqueous interfaces, including the development of computational approaches in direct contact with the experiment Theory and simulation advances in solute precipitate nucleation A computational viewpoint of water in the liquid state Construction of energy functions for lattice heteropolymer models, including efficient encodings for constraint satisfaction programming and quantum annealing Advances in Chemical Physics is ideal for introducing novices to topics in chemical physics and serves as the perfect supplement to any advanced graduate class devoted to its study. The series also provides the foundation needed for more experienced researchers to advance research studies.



The Hydrated Electron

Author : Edwin James Hart

Publisher : John Wiley & Sons

Page : 298 pages

File Size : 44,51 MB

Release : 1970

Category : Science

ISBN :

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Specific Ion Effects

Author : Werner Kunz

Publisher : World Scientific

Page : 347 pages

File Size : 11,11 MB

Release : 2010

Category : Medical

ISBN : 9814271586

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Book Description

Specific ion effects are important in numerous fields of science and technology. This book summarizes the main ideas that came up over the years. It presents the efforts of theoreticians and supports it by the experimental results stemming from various techniques.



How Do Water Clusters and Bulk Water Bind an Excess Electron

Author : Chenchen Zhou

Publisher :

Page : 104 pages

File Size : 39,80 MB

Release : 2019

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A hydrated electron is formed when an excess electron is captured and stablized by an aqueous solution. It is generally believed that the electron carves out a quasi-spherical cavity in water and resides in it, but recent simulation work has shown a different picture where the electron is softer and the wavefunction overlaps with water molecules in the inner solvation shell. This thesis explores predictions of these two models for both the transient absorption spectroscopy and the time-resolved photoelectron spectroscopy of photo-excited hydrated electrons, providing direct comparison with experimental results. It has been shown that the non-cavity model does a better job of explaining the non-adiabatic dynamics and temperature dependent behavior of a hydrated electron in its excited state. This thesis also includes a new attempt using range-separated hybrid functional based ab initio molecular dynamics for small water clusters with an excess electron. The negatively charged water clusters have been studied as a nano-scale version of the hydrated electron and their properties can be extrapolated to bulk solutions. Here the \textit{ab initio} molecular dynamics scheme is demonstrated to perfectly reproduce the spectral signatures of small water cluster anions, thus paving the way for more detailed simulations for bulk hydrated electron.



Mineral-Water Interface Geochemistry

Author : Michael F. Hochella

Publisher : Walter de Gruyter GmbH & Co KG

Page : 620 pages

File Size : 36,73 MB

Release : 2018-12-17

Category : Science

ISBN : 1501509136

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Book Description

Volume 23 of Reviews in Mineralogy and accompanying MSA short course covers chemical reactions that take place at mineral-water interfaces. We believe that this book describes most of the important concepts and contributions that have driven mineral-water interface geochemistry to its present state. We begin in Chapter 1 with examples of the global importance of mineral-water interface reactions and a brief review of the contents of the entire book. Thereafter, we have divided the book into four sections, including atomistic approaches (Chapters 2- 3), adsorption (Chapters 4-8), precipitation and dissolution (Chapters 9-11), and oxidation-reduction reactions (Chapters 11-14).



Water in Biological and Chemical Processes

Author : Biman Bagchi

Publisher : Cambridge University Press

Page : 383 pages

File Size : 34,79 MB

Release : 2013-11-14

Category : Medical

ISBN : 1107037298

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Book Description

A unified overview of the dynamical properties of water and its unique and diverse role in biological and chemical processes.