Nanoengineering of Core-Shell Magnetic Mesoporous Microspheres with Tunable Surface Roughness
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Zhang, Yu
Jiang, Yongjian
Li, Jialuo
Zhang, Hongwei
Yu, Chengzhong
Elzatahry, Ahmed A
Alghamdi, Abdulaziz
Deng, Yonghui
Zhao, Dongyuan
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Abstract
Functional core-shell mesoporous microspheres with integrated functions, controlled structure, and surface properties and morphologies have received increasing attention due to their excellent physicochemical properties. Herein, core-shell magnetic mesoporous materials with cauliflower-like morphology and tunable surface roughness have been synthesized through a kinetics-controlled interface co-assembly and deposition of mesostructured nanocomposites on Fe 3 O 4 @RF microspheres (RF refers to resorcinol formaldehyde resin). The obtained microspheres, synthesized via this interface nanoengineering method, possess well-defined sandwich structure with a tunable rough morphology, uniform size (560-1000 nm), perpendicularly aligned mesopores (∼5.7 nm) in the outer shell, RF-protected magnetic responsive core, high surface area up to 382 m 2 /g, and large pore volume of 0.66 cm 3 /g. As a result of the unique surface features and magnetic properties, these microspheres exhibit excellent performance in stabilizing and oxygen-free manipulating aqueous solutions in petroleum ether by a magnetic field. They also exhibit superior cell uptake properties compared with traditional smooth core-shell magnetic mesoporous silica microspheres, opening up the possible applications in fast drug delivery in cancer therapy.
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Journal of the American Chemical Society
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139
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13
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Chemical sciences
Science & Technology
Physical Sciences
Chemistry, Multidisciplinary
Chemistry
LITHIUM-SULFUR BATTERIES
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Yue, Q; Zhang, Y; Jiang, Y; Li, J; Zhang, H; Yu, C; Elzatahry, AA; Alghamdi, A; Deng, Y; Zhao, D, Nanoengineering of Core-Shell Magnetic Mesoporous Microspheres with Tunable Surface Roughness, Journal of the American Chemical Society, 2017, 139 (13), pp. 4954-4961