1-Hexadecyl-3-methylimidazolium chloride (C16mimCl) can be used as “bridges” to prepare PS/C16mimCl/Pd beads, and Pd-loaded hierarchical porous silica was synthesized using dual templates of the PS/C16mimCl/Pd beads and C16mimCl.
The core‐shell structured polymer microgels were synthesized by coating the hydrophobic poly(methyl methacrylate) (PMMA) sphere cores with hydrophilic nonlinear poly(ethylene glycol)‐based gel shell layer. The uniqueness of these core‐shell microgels lies in the integration of the PMMA core microsphere with strong hydrophobicity and the novel oligo(ethylene glycol)‐based gel layer with well‐defined thermosensitivity for improving loading/release efficacy of two detoxification drugs (chlorpromazine and diltiazem). The hydrophilic shell is composed of hydrophilic copolymer of 2‐(2‐methoxyethoxy)ethyl methacrylate (MEO2MA) with oligo(ethylene glycol) methyl ether methacrylates (MEO5MA). It was found that the molar ratio of two shell monomers n(MEO2MA)/n(MEO5MA) of 1:6 was an ideal matching value for production of the P(MEO2MA)/P(MEO2MA‐co‐MEO5MA) core‐shell microgels with tunable volume phase transition temperature and excellent colloidal stability across the physiologically important temperature range. Moreover, chlorpromazine‐ and diltiazem‐loaded microgels can show an obvious thermosensitive release and in vitro sustained‐release characteristic up to 80 h.
During the medication-assisted treatment of drug abuse, side effects and addiction liabilities are commonly observed. Thus, control of the medication dose is very important. According to body temperature abnormalities in drug abusers, a thermo-sensitive nanogel was synthesized as a drug carrier to automatically deliver detoxification medicines. This nanogel was prepared through the synthesis of polystyrene (PS) core microspheres, followed by coverage with a nonlinear poly(ethylene glycol)-based copolymer shell. The PS core microspheres were found to be an ideal hydrophobic core for loading the detoxification medicines effectively. The nonlinear poly(ethylene glycol)-based copolymer shell layer consisted of 2-(2-methoxyethoxy)ethyl methacrylate (MEO2MA) and oligo(ethylene glycol) methyl ether methacrylates (Mn = 300 g mol−1, MEO5MA). The monomer feeding molar ratio n(MEO2MA)/n(MEO5MA) of 1:3 enabled PS@P(MEO2MA-co-MEO5MA) nanogels to exhibit a distinguished colloidal stability and an adjustable volume phase transition temperature which is within the drug addicts’ abnormally fluctuating temperature range. Importantly, it was found that the obtained PS@P(MEO2MA-co-MEO5MA) nanogels displayed good biocompatibility with rat aortic endothelial cells in the given concentration range. The nanogels also exhibited a satisfactory loading efficiency and thermo-sensitive/sustained release characteristics for three detoxification medicines: sinomenine, diltiazem and chlorpromazine.
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