Synthesis and Characterization of a pH- and Temperature-Sensitive FeO-SiO-Poly(NVCL-co-MAA) Nanocomposite for Controlled Delivery of Doxorubicin Anticancer Drug.

This work reports the synthesis, characterization, and in vitro release studies of pH- and temperature-sensitive FeO-SiO-poly(NVCL-co-MAA) nanocomposite. FeO nanoparticles were prepared by chemical coprecipitation, coated with SiO by the Stöber method, and functionalized with vinyl groups. The copolymer poly(N-vinylcaprolactam-co-methacrylic acid) (poly(NVCL-co-MAA)) was grafted onto the functionalized FeO-SiO nanoparticles by free radical polymerization.

Biomimetic Growth of Hydroxyapatite on SiO Microspheres to Improve Its Biocompatibility and Gentamicin Loading Capacity.

The interest in multifunctional biomaterials to be implanted are also able to release drugs that reduce pain and inflammation or prevent a possible infection has increased. Bioactive materials such as silica (SiO) containing surface silanol groups contribute to the nucleation and growth of hydroxyapatite (HAp) in a physiological environment. Regarding biocompatibility, the spherical shape of particles is the desirable one, since it does not cause mechanical damage to the cell membrane.

Synthesis, structural characterization and Cu(ii) adsorption behavior of manganite (γ-MnOOH) nanorods.

New alternatives for the removal of transition metal ions that present an environmental risk are required. The chemical adsorption of these ions on surfaces with chemisorbent properties represents a promising area of research. In this work, manganite (γ-MnOOH) nanorods were synthesized, with a surface area of 20.

Porous aerogel and core/shell nanoparticles for controlled drug delivery: A review.

This review presents the methods and general strategies for the synthesis of porous aerogels and core/shell nanoparticles with efficient and controlled drug delivery. Different mechanisms of drug delivery are also discussed, which are influenced by the porosity, surface area, pH and surface functionalization of the aerogel and core/shell nanoparticles. Various porous inorganic, organic, and hybrid systems were compared.

Facile synthesis of novel calcium silicate hydrated-nylon 6/66 nanocomposites by solution mixing method.

In this article a facile and green procedure for the synthesis of novel calcium silicate hydrated-nylon 6/66 nanocomposites is proposed. Calcium silicate hydrate (CSH) was synthesized by a hydrolysis technique assisted by ultrasound and using sodium dodecyl sulphate (SDS) as surfactant. CSH-nylon 6/66 nanocomposites were obtained by a solution mixing method at CSH loadings of 2.

Blast furnace residues for arsenic removal from mining-contaminated groundwater.

In this work, blast furnace (BF) residues were well characterized and then evaluated as an adsorbent material for arsenic removal from a mining-contaminated groundwater. The adsorption process was analysed using the theories of Freundlich and Langmuir. BF residues were found to be an effective sorbent for As (V) ions.