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The Ion Exchange and Solvent Extraction series treats ion exchange
and solvent extraction both as discrete topics and as a unified,
multidisciplinary study - presenting new insights for researchers
in many chemical and related fields.;Volume 12 contains coverage
of: the nature of metal-ion interaction with oppositely charged
sites of ion exchangers; high-pressure ion exchange separation of
rare earth elements; the commercial recovery of valuable minerals
from seawater and brines by ion exchange and sorption; the kinetics
of ion exchange in heterogenous systems; the ion-exchange
equilibria of amino acids; and more.;The work is intended for
analytical, co-ordination, process, separation, surface, organic,
inorganic, physical and environmental chemists, geochemists,
electrochemists, radiochemists, biochemists, biophysicists,
hydrometallurgists, membrane researchers and chemical engineers.
The Ion Exchange and Solvent Extraction series treats ion exchange
and solvent extraction both as discrete topics and as a unified,
multidisciplinary study - presenting new insights for researchers
in many chemical and related field. Containing current knowledge
and results in ion exchange, this text: presents an overview of the
chemical thermodynamics of cation-exchange reactions, with
particular emphasis placed on liquid-phase- and
solid-phase-activity coefficient models; describes the development
of surface complexation theory and its application to the ion
exchange phenomenon; discusses metal-natural colloid surface
reactions and their consideration by surface complexation modelling
complements; and covers the influence of humic substances on the
uptake of metal ions by naturally occurring materials.
Uniformly presents extensive data on the properties of solvent
mixtures and describes their structures and interactions-leading to
analyses of preferential solvation phenomena in these solvent
mixtures. This reference examines the properties, function, and
behavior of binary, ternary, and multicomponent mixtures in the
presence and absence of solutes-detailing the effects and impact of
preferential solvation on the environment, action, and components
of chemical systems. Features numerous tables displaying the
physical, thermodynamic, and chemical properties of binary solvent
mixtures. Solvent Mixtures highlights - experimental approaches to
determine when, and to what extent, preferential solvation has
taken place -models for organic, ionic, macromolecular, and
biochemical solutes and discusses -excess Gibbs energy and volume,
enthalpy, and entropy -chemical probes for polarity, electron pair
donicity, and hydrogen bond formation -correlation volumes and
local mole fractions. Compiling, comparing, and analyzing research
from a wide range of abstracts, journal articles, and websites,
Solvent Mixtures is a timely guide for analytical, coordination,
process, separation, surface, organic, inorganic, physical, and
environmental chemists; geochemists; electrochemists;
radiochemists; biochemists; biophysicists; hydrometallurgists;
membrane researchers; chemical engineers; and upper-level
undergraduate and graduate students in these disciplines.
"Volume 13 of this important series continues in the tradition of
its widely received predecessors, presenting current advances and
results in solvent extraction. Contains nearly 800 helpful
drawings, tables, equations and bibliographic citations."
The Ion Exchange and Solvent Extraction series treats ion exchange
and solvent extraction both as discrete topics and as a unified,
multidisciplinary study - presenting new insights for researchers
in many chemical and related fields.;Volume 12 contains coverage
of: the nature of metal-ion interaction with oppositely charged
sites of ion exchangers; high-pressure ion exchange separation of
rare earth elements; the commercial recovery of valuable minerals
from seawater and brines by ion exchange and sorption; the kinetics
of ion exchange in heterogenous systems; the ion-exchange
equilibria of amino acids; and more.;The work is intended for
analytical, co-ordination, process, separation, surface, organic,
inorganic, physical and environmental chemists, geochemists,
electrochemists, radiochemists, biochemists, biophysicists,
hydrometallurgists, membrane researchers and chemical engineers.
The Ion Exchange and Solvent Extraction series treats ion exchange
and solvent extraction both as discrete topics and as a unified,
multidisciplinary study - presenting new insights for researchers
in many chemical and related field. Containing current knowledge
and results in ion exchange, this text: presents an overview of the
chemical thermodynamics of cation-exchange reactions, with
particular emphasis placed on liquid-phase- and
solid-phase-activity coefficient models; describes the development
of surface complexation theory and its application to the ion
exchange phenomenon; discusses metal-natural colloid surface
reactions and their consideration by surface complexation modelling
complements; and covers the influence of humic substances on the
uptake of metal ions by naturally occurring materials.
"Contains a complete manual with procedures for the implementation
and scaling-up of industrial extraction processes. Discusses
computer-aided molecular design. Includes examples of interactive,
combinatorial, construct-and-test, and mathematical programming."
Introduces a special class of polymeric ligand exchanger (PLE) with
hi gh affinities for anionic ligands. Volume 14 discusses the
potential a nd advantages of micro- and nanofiltration membrane
processes for remo val of metals; details prevailing equilibrium
relationships and suppor ting experimental data for systems where
leaching and ion exchange tak e place simultaneously; covers cases
of uranium cation and gold cyanid e anion bisorption and modeling
of engineered systems; and more.
This text introduces a special class of polymeric ligand exchanger
(PLE) with high affinities for anionic ligands. Volume 14 discusses
the potential and advantages of micro- and nanofiltration membrane
processes for removal of metals; details prevailing equilibrium
relationships and supporting experimental data for systems where
leaching and ion exchange take place simultaneously; covers cases
of uranium cation and gold cyanide anion bisorption and modelling
of engineered systems.
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