Effect on hydrophobicity and antimicrobial behavior of epoxy resin due to silane functionalized TiO₂ as nanofillers

“…Surface modification of nanoparticles via attachment of reactive polymers has been well known as a useful approach to make them reactive and evenly dispersed in epoxy matrix by participation into curing reaction. [12][13][14][15][16][17][18] Moreover, bulk modification of Fe 3 O 4 through doping the atoms of metals could, even at very low loading levels, affect the kinetics of curing. Collected from our previous attempts, the effect of doping several dopants inserted in the structure of Fe 3 O 4 nanoparticles on the epoxy curing is summarized in Table 1.…”

Nonisothermal cure behavior and kinetics of cerium‐doped Fe₃O₄/epoxy nanocomposites

“…Surface modification of nanoparticles via attachment of reactive polymers has been well known as a useful approach to make them reactive and evenly dispersed in epoxy matrix by participation into curing reaction. [12][13][14][15][16][17][18] Moreover, bulk modification of Fe 3 O 4 through doping the atoms of metals could, even at very low loading levels, affect the kinetics of curing. Collected from our previous attempts, the effect of doping several dopants inserted in the structure of Fe 3 O 4 nanoparticles on the epoxy curing is summarized in Table 1.…”

Nonisothermal cure behavior and kinetics of cerium‐doped Fe₃O₄/epoxy nanocomposites

Improvement of physical–mechanical–antimicrobial activities with effect of amine-functionalized nano-ZnO-reinforced areca fibre/epoxy hybrid nanocomposites

Fabricating core-shell of silane modified nano ZnO; Effects on photocatalytic degradation of benzene in air using acrylic nanocomposite