Anchoring PNIPAM on ATP Surface via hydrogen bonding and coordination for a temperature-responsive adsorption of hydrophobic drug

Abstract: A thermo-responsive polymer, poly(N-isopropylacrylamide) (PNIPAM), was anchored on the surface of low-cost natural clay nanorods, attapulgite (ATP), through the interactions including hydrogen bonding and coordination. Premixing the monomers of NIPAM with ATP before polymerization caused that the obtained PNIPAM could distribute among the pore voids of ATP and function as a surface affinity conditioner in response to temperature change. The PNIPAM/ ATP composite was then applied in temperature-triggered adsorp… Show more

“…[79,80] Thermoresponsive polymers are gaining increasing interest for environmental applications as thermocontrolled adsorbents that are responsive or sensitive to temperature changes. [81][82][83][84] They are capable of selective adsorption and desorption under varying temperature conditions.…”

Smart Adsorbents for Aquatic Environmental Remediation

“…[79,80] Thermoresponsive polymers are gaining increasing interest for environmental applications as thermocontrolled adsorbents that are responsive or sensitive to temperature changes. [81][82][83][84] They are capable of selective adsorption and desorption under varying temperature conditions.…”

Smart Adsorbents for Aquatic Environmental Remediation

Stimuli-responsive pesticide carriers based on porous nanomaterials: A review

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