Side-chain effect on Langmuir and Langmuir–Blodgett film properties of poly(N-alkylmethacrylamide)-coated magnetic nanoparticle

“…This can be done by adding different surfactants on the surface of the particles, thus making the surface non-polar and more compatible with the organic solvents used in inks. Typical surfactants include organic acids [8] and acid anhydrides, thiols, [9] organic phosphates [10], and polymers with reactive polar functional groups [11,12]. In order to achieve sufficient mechanical durability, both synthetic products and natural fatty acids are used as binders of the solid components in the printed patterns.…”

Formulation of Screen Printable Cobalt Nanoparticle Ink for High Frequency Applications

“…This can be done by adding different surfactants on the surface of the particles, thus making the surface non-polar and more compatible with the organic solvents used in inks. Typical surfactants include organic acids [8] and acid anhydrides, thiols, [9] organic phosphates [10], and polymers with reactive polar functional groups [11,12]. In order to achieve sufficient mechanical durability, both synthetic products and natural fatty acids are used as binders of the solid components in the printed patterns.…”

Formulation of Screen Printable Cobalt Nanoparticle Ink for High Frequency Applications

“…The core-shell magnetite hybrid nanoparticles will have the advantages of good dispersion and high stability against oxidation, and appreciable amount of drug can be loaded to the polymer shell [15][16][17][18][19][20][21]. Furthermore, lots of functional groups from polymers at the surface can be used to further functionalization to get various properties [22].…”

Synthesis, characterization, and controllable drug release of pH-sensitive hybrid magnetic nanoparticles

“…Lecommandoux et al developed magnetic nanocomposites of polypeptidebased diblock copolymers of polybutadiene-block-poly(glutamic acid) in combination with hydrophobically modifi ed γ-Fe 2 O 3 nanoparticles [ 78 ]. Furthermore, lots of functional groups from polymers on the surface can be used for further functionalisation to get various properties [ 79 ]. It is favoured that magnetically responsive carriers retain suffi cient hydrophilicity and, with coating, do not exceed 100 nm in size to avoid rapid clearance by reticuloendothelial system.…”

Stimuli Responsive Carriers: Magnetically, Thermally and pH Assisted Drug Delivery