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Neville G. Pinto
Researcher at University of Cincinnati
Publications - 82
Citations - 3124
Neville G. Pinto is an academic researcher from University of Cincinnati. The author has contributed to research in topics: Adsorption & Activated carbon. The author has an hindex of 28, co-authored 82 publications receiving 2956 citations. Previous affiliations of Neville G. Pinto include University of Louisville.
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Effect of chemical surface heterogeneity on the adsorption mechanism of dissolved aromatics on activated carbon
TL;DR: In this paper, the effects of carboxylic and carbonyl groups on the adsorption of dissolved aromatics on activated carbon have been studied, and the main mechanisms by which surface oxygen groups influence the adorption capacity were found not to be significant.
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Synthesis of ordered large pore SBA-15 spherical particles for adsorption of biomolecules.
TL;DR: The synthesis of spherical particles of mesoporous silicates (SBA-15) with mesopore diameter upto 127A, and particle diameter of 4-10 microm has been achieved and have a very high capacity of 700 mg/g for lysozyme at pH 7.7.
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Protein adsorption on the mesoporous molecular sieve silicate SBA-15: effects of pH and pore size.
TL;DR: It has been shown that SBA-15 materials can be tailored to show size selectivity for proteins, and very high capacities can be obtained, and the rates of adsorption are shown to be dependent on the pore size, protein structure and solution pH.
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Manganese Oxide/Titania Materials for Removal of NOx and Elemental Mercury from Flue Gas
TL;DR: In this paper, a novel catalyst for low temperature selective catalytic reduction (SCR) using CO as reductant, MnO x supported on titania, has been shown to be effective for both elemental mercury capture and low temperature SCR.
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Effects of surface properties of activated carbons on adsorption behavior of selected aromatics
C. C. Leng,Neville G. Pinto +1 more
TL;DR: In this paper, the role of surface oxygen complexes and metals on activated carbon on adsorption of selected aromatics was investigated and it was shown that removing hydrophilic structures of activated carbon increased physisorption and surface polymerization of phenol.