D. Zamboulis scite author profile

Iron oxide nanoparticles were prepared using the simplest and most efficient chemical route, the coprecipitation, in the absence and the presence of three different and widely used surfactants. The purpose of this study is to investigate the possible influence of the different surfactants on the structure and therefore on the magnetic properties of the iron oxide nanoparticles. Thus, different techniques were employed in order to elucidate the composition and structure of the magnetic iron oxide nanoparticles. By combining transmission electron microscopy with X-ray powder diffraction and X-ray absorption fine structure measurements, we were able to determine and confirm the crystal structure of the constituent iron oxides. The magnetic properties were investigated by measuring the hysteresis loops where the surfactant influence on their collective magnetic behavior and subsequent AC magnetic hyperthermia response is apparent. The results indicate that the produced iron oxide nanoparticles may be considered as good candidates for biomedical applications in hyperthermia treatments because of their high heating capacity exhibited under an alternating magnetic field, which is sufficient to provoke damage to the cancer cells.

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Preparation and application of organo-modified zeolitic material in the removal of chromates and iodides

Warchoł

Μisaelides

Petrus

et al. 2006

Journal of Hazardous Materials

102

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Application of a membrane sequencing batch reactor for landfill leachate treatment

et al. 2008

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Metal ion separation and recovery from environmental sources using various flotation and sorption techniques

Zamboulis

Peleka

Lazaridis

et al. 2010

J of Chemical Tech & Biotech

116

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Flotation is a gravity separation process that originated from processing of minerals, and has nowadays found wide application, for instance, in industrial waste-water treatment. It is also useful in the concentration of a variety of dissolved chemical species often following a sorption process. The present review paper focuses on the removal of heavy metal ions from aqueous solution. The process mechanisms involved are either sorptive flotation where metal bonding agents, including biosorbents, are added and the subsequent complexes are separated downstream by flotation or other conventional flotation techniques, such as ion flotation are used. In the laboratory experiments described in this paper, zinc has been used as an example, but in addition copper, nickel, arsenic, etc. are considered. A new hybrid flotation-microfiltration cell is also introduced.

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Thermal behavior and tensile properties of poly(ethylene terephthalate‐co‐ethylene isophthalate)

Karayannidis

Sideridou

Zamboulis

et al. 2000

J. Appl. Polym. Sci.

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Poly(ethylene terephthalate) (PET) and poly(ethylene isophthalate) (PEI) homopolymers were synthesized by the two-step melt polycondensation process of ethylene glycol (EG) with dimethyl terephthalate (DMT) and/or dimethyl isophthalate (DMI), respectively. Nine copolymers of the above three monomers were also synthesized by varying the mole percent of DMI with respect to DMT in the initial monomer feed. The thermal behavior was investigated over the entire range of copolymer composition by differential scanning calorimetry (DSC). The glass transition (T g ), cold crystallization (T cc ), melting (T m ), and crystallization (T c ) temperatures have been determined. Also, the gradually increasing proportion of ethyleno-isophthalate units in the virgin PET drastically differentiated the tensile mechanical properties, which were determined, and the results are discussed.

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D. Zamboulis

Surfactant Effects on the Structural and Magnetic Properties of Iron Oxide Nanoparticles

Preparation and application of organo-modified zeolitic material in the removal of chromates and iodides

Application of a membrane sequencing batch reactor for landfill leachate treatment

Metal ion separation and recovery from environmental sources using various flotation and sorption techniques

Thermal behavior and tensile properties of poly(ethylene terephthalate‐co‐ethylene isophthalate)

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