2018
DOI: 10.1007/s10853-018-2588-6
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Facile preparation of biocompatible poly(l-lactic acid)-modified halloysite nanotubes/poly(ε-caprolactone) porous scaffolds by solvent evaporation of Pickering emulsion templates

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Cited by 20 publications
(15 citation statements)
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“…The recently developed non-flow-through catalysis applications include the catalytic reduction of 4-nitrophenol to 4-aminophenol, the catalytic transformation of cellulose into 5-hydroxy­methylfurfural, and biocatalytic waste stream upcycling . Encapsulation and release PH applications also continue to be of interest and include the encapsulation of thermal energy storage-release phase change materials ,, and the release of the antibacterial drug enrofloxacin and cinnamon oil (which also exhibits antibacterial activity) …”
Section: Perspectives and Prognosticationsmentioning
confidence: 99%
“…The recently developed non-flow-through catalysis applications include the catalytic reduction of 4-nitrophenol to 4-aminophenol, the catalytic transformation of cellulose into 5-hydroxy­methylfurfural, and biocatalytic waste stream upcycling . Encapsulation and release PH applications also continue to be of interest and include the encapsulation of thermal energy storage-release phase change materials ,, and the release of the antibacterial drug enrofloxacin and cinnamon oil (which also exhibits antibacterial activity) …”
Section: Perspectives and Prognosticationsmentioning
confidence: 99%
“…The solvent evaporation technique was employed to generate porous PCL-mHNT nanocomposite scaffolds from w/o Pickering emulsion templates (low to high internal phase content) comprising mHNT dispersion in the PCL solution (M w = 80 000 g mol À1 , 10 wt% in DCM) as the continuous phase. 87 Pickering emulsions were prepared at 3500 rpm in a vortex mixture, solidified by a solvent and water evaporation at room temperature in a fume hood and finally under vacuum. The microstructure, porosity and antibacterial drug (enrofloxacin) release kinetics of emulsion templated PCL-mHNT nanocomposite scaffolds were efficiently tailored by varying the mHNT loadings and volume ratios of the dispersed to continuous phase.…”
Section: Aqueous Hipe Templatesmentioning
confidence: 99%
“…In this study, the antibacterial drug ENR was used to monitor the drug loading and in vitro release behavior of MPB scaffolds. The loading efficiencies of ENR-loaded scaffolds were determined by the extraction method reported in our previous work [41], and the detailed procedures were displayed in the Supplementary Material. The ENR loading efficiencies for scaffolds P 3 H 7.5 S 2 , P 6 H 7.5 S 2 and P 9 H 7.5 S 2 were 97.9%, 96.9% and 99.3%, respectively, close to the theoretical limit.…”
Section: In Vitro Drug Release and Antibacterial Activity Testingmentioning
confidence: 99%