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Charles H. Giles

Bio: Charles H. Giles is an academic researcher from University of Strathclyde. The author has contributed to research in topics: Adsorption & Cellulose. The author has an hindex of 19, co-authored 52 publications receiving 5702 citations.


Papers
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Journal ArticleDOI
01 Jun 1974
TL;DR: In this article, a theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute.
Abstract: A theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute. Three of the four main classes (S, L, H) are accounted for by differences in relative magnitude of the activation energies of desorption of solutes and solvent. The S-shaped isotherm is also accounted for by an additional concentration-dependence of this parameter, implying cooperative adsorption. The subgroups of each class are also explained. The linear (C) isotherm is explained by penetration of substrate micropores by solute, with or without solvent, whereby new adsorption sites are opened up; the theory predicts the experimentally found sharp inflection to a plateau in the C-curves. Curves of the other classes can also in some cases show a linear branch above the turning point, representing conditions like those for C-curves. The theoretical treatment is valid whether the adsorbing surface is energetically uniform, or, as in most systems, nonuniform.

1,711 citations

Journal ArticleDOI
01 Jun 1974
TL;DR: In this article, the S-curve can be produced by either cooperative adsorption or by a competitive effect of an impurity in the solvent, which is illustrated and discussed.
Abstract: The solute adsorption isotherm classification, examined theoretically in the previous paper, is illustrated by a number of further experiments which help to clarify some earlier obscurities and enable an isotherm to assist (a) in interpreting the adsorption mechanism and the solute orientation, (b) in identifying the presence of associated solute and of an impurity, and (c) in measuring the specific surface area of a solid. The production of the S-curve by either cooperative adsorption or by a competitive effect of an impurity in the solvent is illustrated and discussed. Thus p-nitrophenol is adsorbed from dry benzene by both silica and graphite. Traces of water in the solvent reduce the adsorption on silica by competition and change the curve from L- to S-shape, but have no effect on adsorption on graphite, where competition is negligible. The adsorption of aromatic hydrocarbons by alumina, which usually gives S-curves, is discussed. Cooperative adsorption can give the H-type of curve if the cooperating molecules move as a large unit from solvent to substrate, as in J-aggregate adsorption of cyanine dyes on silver halides. Examples of adsorption on inorganic and biological substrates giving C-type (linear) curves are quoted, illustrating the progressive penetration of micropores in the substrate suggested to be characteristic of this process. Data are given showing that maxima in isotherms for adsorption of high affinity solutes can be identified with completion of the monolayer. Surface tension measurements suggest that maxima may result from the presence of traces of a highly surface-active impurity.

624 citations

01 Jan 1974
TL;DR: In this article, a theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute.
Abstract: A theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute. Three of the four main classes (S, L, H) are accounted for by differences in relative magnitude of the activation energies of desorption of solutes and solvent. The S-shaped isotherm is also accounted for by an additional concentration-dependence of this parameter, implying cooperative adsorption. The subgroups of each class are also explained. The linear (C) isotherm is explained by penetration of substrata micropores by solute, with or without solvent, whereby new adsorption sites are opened up; the theory predicts the experimentally found sharp inflection to a plateau in the C-curves. Curves of the other classes can also in some cases show a linear branch above the turning point, representing conditions like those for C-curves. The theoretical treatment is valid whether the adsorbing surface is energetically uniform, or, as in most systems, nonuniform.

399 citations

Journal ArticleDOI
TL;DR: In this article, the use of p-nitrophenol (PNP) in measuring specific surface of finely divided solids is supplemented by a description of recent investigations which enable the usefulness of the method to be more clearly defined.
Abstract: Earlier work describing the use of p-nitrophenol (PNP) in measuring specific surface of finely divided solids is supplemented here by a description of recent investigations which enable the usefulness of the method to be more clearly defined. Normally PNP is used in aqueous solution, but for some materials liable to dissolve in, swell in, or react chemically with, water, e.g. sugar, certain inorganic oxides and textile fibres, an organic solvent is used. The method is suitable for a wide variety of solids, both non-porous and porous, provided they either form a hydrogen bond with PNP or have aromatic nuclei. Thus, with appropriate solvents, oxides, textile fibres with polar molecules and carbons can be used, but not, for example barium sulphate. With porous solids the results may or may not reveal a lower accessible surface than the area measured by nitrogen, depending on the pore size distribution. With porous solids the method enables a rapid estimate of the relative proportion of small and large pores to be made. Also, it can be used to measure the external specific surface only, as distinct from the total surface of some porous granular solids and fibres. Normally PNP appears to be adsorbed flatwise from water or organic solvents with an effective molecular area of 52.5 A2. (An earlier value for this area given for special cases of adsorption from non-aqueous solutions is now shown to be invalid). In some cases on polar inorganic solids it is adsorbed end-on with an effective area of 25 A2. The mode of adsorption is indicated by the type of isotherm.

53 citations


Cited by
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Journal ArticleDOI
TL;DR: In this article, the photocatalytic degradation of azo dyes containing different functionalities has been reviewed using TiO2 as photocatalyst in aqueous solution under solar and UV irradiation.
Abstract: The photocatalytic degradation of azo dyes containing different functionalities has been reviewed using TiO2 as photocatalyst in aqueous solution under solar and UV irradiation. The mechanism of the photodegradation depends on the radiation used. Charge injection mechanism takes place under visible radiation whereas charge separation occurred under UV light radiation. The process is monitored by following either the decolorization rate and the formation of its end-products. Kinetic analyses indicate that the photodegradation rates of azo dyes can usually be approximated as pseudo-first-order kinetics for both degradation mechanisms, according to the Langmuir–Hinshelwood model. The degradation of dyes depend on several parameters such as pH, catalyst concentration, substrate concentration and the presence of electron acceptors such as hydrogen peroxide and ammonium persulphate besides molecular oxygen. The presence of other substances such as inorganic ions, humic acids and solvents commonly found in textile effluents is also discussed. The photocatalyzed degradation of pesticides does not occur instantaneously to form carbon dioxide, but through the formation of long-lived intermediate species. Thus, the study focuses also on the determination of the nature of the principal organic intermediates and the evolution of the mineralization as well as on the degradation pathways followed during the process. Major identified intermediates are hydroxylated derivatives, aromatic amines, naphthoquinone, phenolic compounds and several organic acids. By-products evaluation and toxicity measurements are the key-actions in order to assess the overall process.

3,692 citations

Journal ArticleDOI
TL;DR: A review of the use of chitosan and its grafted and crosslinked derivatives for dye removal from aqueous solutions can be found in this paper, which summarizes the key advances and results that have been obtained in their decolorizing application as biosorbents.

1,974 citations

Journal ArticleDOI
01 Jun 1974
TL;DR: In this article, a theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute.
Abstract: A theoretical basis is developed for the classification of adsorption isotherms for solutes in dilute solution, which relates their characteristic shapes to parameters of the solvent and any second solute. Three of the four main classes (S, L, H) are accounted for by differences in relative magnitude of the activation energies of desorption of solutes and solvent. The S-shaped isotherm is also accounted for by an additional concentration-dependence of this parameter, implying cooperative adsorption. The subgroups of each class are also explained. The linear (C) isotherm is explained by penetration of substrate micropores by solute, with or without solvent, whereby new adsorption sites are opened up; the theory predicts the experimentally found sharp inflection to a plateau in the C-curves. Curves of the other classes can also in some cases show a linear branch above the turning point, representing conditions like those for C-curves. The theoretical treatment is valid whether the adsorbing surface is energetically uniform, or, as in most systems, nonuniform.

1,711 citations

Journal ArticleDOI
TL;DR: In this article, the authors present the physical bases underlying the definition of a sorption isotherm, different empirical or mechanistic models, and details several experimental methods to acquire a sink.

1,482 citations

Journal ArticleDOI
TL;DR: The most important aspects referring to irreversible adsorption of phenols and impact of different substituents of phenolic compounds on their uptake by activated carbons is considered.

1,249 citations