[PDF] Specific Ion Effects In Non Aqueous Solutions eBook

Author : Virginia Mazzini
Publisher :
Page : 0 pages
File Size : 29,47 MB
Release : 2018
Category :
ISBN :

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Electrolyte solutions play a central role in life and technological processes because of their complexity. This complexity is yet to be described by a predictive theory of the specific effects that different ions induce in solution. The vast majority of investigations of specific-ion effects have been conducted in aqueous solutions. These studies have revealed that amongst the complexity, the effectiveness of the ions often follow trends that are apparent across a number of very different experiments, revealing an underlying order (e.g. the Hofmeister series). It is often assumed that water itself is intricately involved in these trends. Here I investigate specific-ion effects in non-aqueous solvents rather than water. By extending the investigation to a number of non-aqueous solvents, the role of the solvent in specific-ion effect trends can be elucidated and a better understanding of the general phenomenon gained. Firstly, a more definite terminology is developed for describing the specific-ion effects trends in order to address the current confusion in the literature and provide a basis for the following investigations. An extensive investigation of the scarce literature demonstrates that water is by no means a special solvent with regards to ion-specificity, and that within the complexity there is universality. An investigation of electrostriction under the conditions of infinite dilution shows that the same fundamental specific ion trends are observed across all solvents, demonstrating that ion-specificity arises from the ions themselves. In this regard the influence of solvents, surfaces and real concentrations of electrolytes can be seen as perturbations to this fundamental series. Further work shows that for systems that are perturbed, the trends in non-aqueous protic solvents can be expected to follow the same trend in water; and in aprotic solvents the cations are more likely to adhere to the trend in water than the anions. My experimental work focuses on specific-anion effects of seven Hofmeister sodium salts in the solvents: water, methanol, formamide, dimethyl sulfoxide and propylene carbonate. Two very different experiments were performed; the elution of electrolytes from a size-exclusion chromatography column and an investigation of the electrolyte moderated swelling of a cationic brush (PMETAC) using a Quartz Crystal Microbalance (QCM). The trends observed are consistent across these experiments. A forward or reverse Hofmeister series is observed in practically all salt-solvent combinations, and the reversal is attributed to the polarisability of the solvent. Finally, a qualitative model of ion specific trends is formulated, where the specific-ion effects are fundamentally a property of the ion, and the associated trends correspond to the Hofmeister series for anions and the lyotropic series for cations. When the concentration is increased, or surfaces introduced, the effects of ion-ion interactions and ion-surface interactions can perturb the fundamental series. The perturbation of the series is related to the proticity of the solvent for ion-ion interactions, whereas the polarisability of the solvent and ion are important when a surface is present. This work for the first time individuates the principal properties of the solvent that affect their ordering: proticity and polarisability.

Author : Werner Kunz
Publisher : World Scientific
Page : 347 pages
File Size : 15,20 MB
Release : 2010
Category : Science
ISBN : 9814271578

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Specific ion effects are important in numerous fields of science and technology. They have been discussed for over 100 years, ever since the pioneering work done by Franz Hofmeister and his group in Prague. Over the last decades, hundreds of examples have been published and periodically explanations have been proposed. However, it is only recently that a profound understanding of the basic effects and their reasons could be achieved. Today, we are not far from a general explanation of specific ion effects. This book summarizes the main new ideas that have come up in the last ten years. In this book, the efforts of theoreticians are substantially supported by the experimental results stemming from new and exciting techniques. Both the new theoretical concepts and the experimental landmarks are collected and critically discussed by eminent scientists and well-known specialists in this field. Beyond the rigorous explanations, guidelines are given to non-specialists in order to help them understand the general rules governing specific ion effects in chemistry, biology, physics and engineering.

Author : Yizhak Marcus
Publisher : John Wiley & Sons
Page : 308 pages
File Size : 34,87 MB
Release : 2015-08-03
Category : Science
ISBN : 1118889142

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The book starts with an exposition of the relevant properties of ions and continues with a description of their solvation in the gas phase. The book contains a large amount of factual information in the form of extensive tables of critically examined data and illustrations of the points made throughout. It covers: the relevant properties of prospective liquid solvents for the ions the process of the transfer of ions from the gas phase into a liquid where they are solvated various aspects of the solutions of the ions, such as structural and transport ones and the effects of the ions on the solvent dynamics and structure what happens in cases where the solvent is a mixture selective solvation takes place applications of the concepts expounded previously in fields such as electrochemistry, hydrometallurgy, separation chemistry, biophysics, and synthetic methods

Author : Werner Kunz
Publisher : World Scientific
Page : 347 pages
File Size : 31,75 MB
Release : 2010
Category : Medical
ISBN : 9814271586

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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.

Author : Gennadiĭ Alekseevich Krestov
Publisher : Prentice Hall
Page : 368 pages
File Size : 17,8 MB
Release : 1994
Category : Science
ISBN :

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This comprehensive, widely-read anthology presents cogent and provocativearticles from differing political perspectives on major issues in post-World WarII America. The fourth edition is considerably expanded to include newselections on the AIDS epidemic, gay rights, the women's movement, and theClinton-Gore administration. In addition to articles by leading historians theeditors have chosen first-person accounts by participants in each of the issuesunder discussion, from Martin Luther King, Jr.'s "Letter from the BirminghamJail" to Al Gore's speech on environmentalism. With lively introductions to eachsection providing a context for the articles, this book helps students makesense of the tumultuous world of our time.

Author : Yitzhak Marcus
Publisher : CRC Press
Page : 272 pages
File Size : 18,47 MB
Release : 1997-07-29
Category : Science
ISBN : 9780824700119

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Considering the properties of inorganic and organic ions pertaining directly, as well as indirectly, to their behaviour in solutions, this work aims to enable the specialist and non-specialist alike to comprehend ion behaviour in ongoing and developing studies and applications. The companion disk is for use with Microsoft Access 2.0.

Author : Kosuke Izutsu
Publisher : John Wiley & Sons
Page : 432 pages
File Size : 33,88 MB
Release : 2009-09-22
Category : Science
ISBN : 9783527629169

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An excellent resource for all graduate students and researchers using electrochemical techniques. After introducing the reader to the fundamentals, the book focuses on the latest developments in the techniques and applications in this field. This second edition contains new material on environmentally-friendly solvents, such as room-temperature ionic liquids.

Author : Anand Kumar
Publisher :
Page : 0 pages
File Size : 15,67 MB
Release : 2023
Category :
ISBN :

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Against the continuum electrostatic description of the image charge interaction, it is known that inorganic ions are present at the vapour-water interface and show ion specificity in their presence/absence at the interface. Ion specificity for the presence/absence of inorganic ions at the vapour-water interfaces has been investigated using various advanced surface-sensitive techniques as discussed in this thesis. However, it is still largely unexplored at other vapour-solvent interfaces. Here, the specific ion effects (SIE) for the distribution of monovalent inorganic ions along the depth scale at the vapour-solvent interfaces of 4 non-aqueous solvents are investigated. Neutral impact collision ion scattering spectroscopy (NICISS) is employed to elucidate the ion specificity within the distribution of ions at these vapour-solvent interfaces. NICISS provides individual ion concentration depth profiles (CDPs) formed from the inorganic electrolytes dissolved in the solvents. This information is obtained from the energy loss of helium projectiles during their trajectory into the sample and then backscattering from the samples' constituent elements. Employing NICISS, in this thesis, the complexity of ion specificity due to separate ion contributions and solvent perturbations at the vapour-solvent interface is presented. -- Thirteen different glycerol solutions are studied to compare CDPs of inorganic monovalent ions. Results show that smaller chloride ions (Cl-) are comparatively more abundant at the vapour-glycerol interface than larger bromide ions (Br ) and show equal enhancement to larger iodide ions (I-). This is in contrast with aqueous electrolyte solutions but consistent with the expected influence of the change in the solvent. NICISS measurements reported here reveal the anions' strong influence towards the CDPs of the cations, but cations only influence the CDP of Br , whereas Cl and I- distribution are mostly independent of the counterion. Following, a reverse Hofmeister series for monoatomic inorganic ions at the vapour-formamide interface in comparison to the vapour-water interface is reported. The CDPs of ions are found to be independent of the counterion at the vapour-formamide interface. The latter observation suggests that the ions in formamide follow a “Hofmeister paradigm” where the counterion has no impact on the order of the series. This is also observed in the various electrolyte solutions through X-ray absorption near-edge structure (XANES) measurements. Even though a negligible counter-ion effect is observed, cations seem to drive the overall depletion of electrolytes which is measured using NICISS and suggested through surface tension measurements. -- In the last experimental chapter, ionic CDPs of selected monovalent inorganic electrolytes were investigated at the vapour-solvent interfaces of propylene carbonate (aprotic) and benzyl alcohol (protic). Here, the SIE at both solvent interfaces is alike suggesting that the interfacial hydrogen bonding does not influence the ion-specific CDPs at these vapour-solvent interfaces. The dominant role of cations in overall electrolyte depletion is also observed. This work further emphasizes the importance of anion-cation interactions towards ion specificity at the vapour-solvent interface. These overall findings display the variation in ionic behaviour at various vapour-solvent interfaces thus displaying the role of solvent perturbation towards the ion specificity. These findings were then tested against various existing concepts and hypotheses for the adsorption/desorption of ions at the vapour-water interface to elucidate the underlying mechanism of ion specificity at the vapour-solvent interfaces. #

Author : M.C. Bellissent-Funel
Publisher : Springer Science & Business Media
Page : 479 pages
File Size : 35,95 MB
Release : 2012-12-06
Category : Science
ISBN : 9400939116

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J.E. Enderby At the last NATO-ASI on liquids held in Corsica, (August 1977),Professor de Gennes, in his summary of that meeting, suggested that the next ASI should concentrate on some specific aspect of the subject and mentioned explicitly ionic solutions as one possibility. The challenge was taken up by Marie-Claire Bellissent-Funel and George Neilson; I am sure that all the participants would wish to congratulate our two colleagues for putting together an outstanding programme of lectures, round tables and poster session. The theory which underlies the subject was covered by four leading authorities: J.-P. Hansen (Paris) set out the general framework in terms of the statistical mechanics of bulk and surface properties; H.L. Friedman (Stony Brook) focused attention on ionic liquids at equilibrium, and J.B. Hubbard considered non-equilibrium properties such as the electrical conductivity and ionic friction coefficients. Finally, the basic theory of polyelectrolytes treated as charged linear polymers in aqueous solution was presented by J.M. Victor (Paris).