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AuthorWei, Yong
AuthorLi, Xiaomin
AuthorElzatahry, Ahmed A.
AuthorZhang, Renyuan
AuthorWang, Wenxing
AuthorTang, Xueting
AuthorYang, Jianping
AuthorWang, Jinxiu
AuthorAl-Dahyan, Daifallah
AuthorZhao, Dongyuan
Available date2021-09-08T06:49:45Z
Publication Date2016
Publication NameRSC Advances
ResourceScopus
ISSN20462069
URIhttp://dx.doi.org/10.1039/c6ra08541e
URIhttp://hdl.handle.net/10576/22908
AbstractThis paper describes a versatile in situ etching-growth strategy for the preparation of periodic mesoporous organosilica (PMO) composites with yolk-shell structure, which can generate the void space and construct the outer PMO shells at the same time. The superparamagnetic yolk-shell Fe3O4@PMO composites (YS-Fe3O4@PMO) with radical mesochannels were also synthesized with this unique in situ etching-growth strategy by using Fe3O4@nSiO2 nanoparticles as the initial core. This method provides a general route for the synthesis of yolk-shell structured nanomaterials with different sized void spaces, various chemical composition cores, as well as organic functional PMO shells with radical mesochannels. Moreover, we can also obtain asymmetric or asymmetric hollow Fe3O4@PMO materials with a cubic PMO shell. All the magnetic mesoporous composites possess very high surface areas and large pore volumes (586 m2 g-1 and 0.52 cm3 g-1 for YS-Fe3O4@PMO, 946 m2 g-1 and 0.86 cm3 g-1 for asymmetric hollow Fe3O4@PMO). Gold nanoparticles could be encapsulated and confined in the void space of YS-Fe3O4@PMO composites through an in situ salt impregnation. The resultant YS-Fe3O4@Au@PMO nanomaterials could be used to catalyze the reduction of 4-nitrophenol with an ultrahigh efficiency (k = 0.01197 s-1). The magnetic catalysts could be easily recovered by a magnet and reused for more than 10 cycles with efficiency retained as high as 95%. 2016 The Royal Society of Chemistry.
SponsorThis work was supported by the State Key Basic Research Program of the PRC (2012CB224805, 2013CB934104), the NSF of China (21210004 and U1463206), Shanghai Sci. & Tech. Committee (14JC1400700). We extended our appreciation to the Deanship of Scientific Research at King Saud University for funding the work through the 530 research group Project No. RGP-227.
Languageen
PublisherRoyal Society of Chemistry
SubjectEfficiency
Etching
Mesoporous materials
Nanoparticles
Nanostructured materials
Periodic structures
Planning
Silica
Strategic planning
Synthesis (chemical)
Chemical compositions
Gold Nanoparticles
High surface area
Magnetic catalysts
Mesoporous composites
Periodic mesoporous organosilicas
Superparamagnetics
Yolk-shell structures
Shells (structures)
TitleA versatile in situ etching-growth strategy for synthesis of yolk–shell structured periodic mesoporous organosilica nanocomposites
TypeArticle
Pagination51470-51479
Issue Number56
Volume Number6
dc.accessType Abstract Only


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