P
P. Ilaiyaraja
Researcher at Indian Institute of Technology Madras
Publications - 33
Citations - 826
P. Ilaiyaraja is an academic researcher from Indian Institute of Technology Madras. The author has contributed to research in topics: Adsorption & Aqueous solution. The author has an hindex of 15, co-authored 32 publications receiving 636 citations. Previous affiliations of P. Ilaiyaraja include Indira Gandhi Centre for Atomic Research & VIT University.
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Adsorption of uranium from aqueous solution by PAMAM dendron functionalized styrene divinylbenzene
TL;DR: A new polymeric chelating resin was prepared by growing third generation poly(amido)amine (PAMAMG3) dendron on the surface of styrene divinylbenzene (SDB) and characterized by FTIR, TGA and SEM, finding the uranium adsorption on PAMamG3-SDB was found to be endothermic and spontaneous in nature.
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Diglycolamide functionalized multi-walled carbon nanotubes for removal of uranium from aqueous solution by adsorption
TL;DR: In this paper, the adsorption capacity of diglycolamide functionalized multi-walled carbon nanotubes (DGA-MWCNTs) was investigated using FT-IR spectroscopy, XRD and SEM analysis.
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Influence of surface disorder, oxygen defects and bandgap in TiO2 nanostructures on the photovoltaic properties of dye sensitized solar cells
TL;DR: In this paper, the effect of oxygen vacancies (VO), introduced in the anatase TiO2 by hydrogenation, on the photovoltaic (PV) characteristics is discussed.
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Surface Engineering of PAMAM-SDB Chelating Resin with Diglycolamic Acid (DGA) Functional Group for Efficient Sorption of U(VI) and Th(IV) from Aqueous Medium
TL;DR: Diglycolamic acid terminated PAMAM dendrimer functionalized styrene divinylbenzene chelating resin (DGA-PAMAM-SDB) is found to be an efficient candidate for the removal of U(VI) and Th(IV) ions from aqueous (pH >4) and nitric acid media (>3M).
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Template assisted nanoporous TiO 2 nanoparticles: The effect of oxygen vacancy defects on photovoltaic performance of DSSC and QDSSC
TL;DR: In this paper, a detailed study on the photovoltaic performance of dye and quantum dot (QD) sensitized solar cells fabricated using nanoporous TiO2 photoanodes prepared by a template approach is presented.