2015
DOI: 10.1039/c5ra18202f
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Thin water films and magnesium hydroxide fiber growth

Abstract: Thin films of water covering highly dispersed metal oxides can give rise to the spontaneous and spatially controllable growth of hydroxide fibers in ambient air. Knowledge about the underlying formation mechanisms is key to the rational development of metal oxide nanomaterials and associated microstructures. We used SiCl 4 as a water free chlorine ion source for the surface functionalization of MgO nanocubes and explored their subsequent transformation into magnesium oxychloride Mg 3 (OH) 5 Cl$4H 2 O fibers up… Show more

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Cited by 6 publications
(9 citation statements)
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“…[12][13][14] Crystalline particles with habits of nanosheets,p latelets,a nd needles do typically emerge under such conditions.Inthe present case,however,asaresult of the dimensionally restricted mass transfer inside the thin water films [15] that cover the oxide surface,e longated structures prevail ( Figure S1). [12][13][14] Crystalline particles with habits of nanosheets,p latelets,a nd needles do typically emerge under such conditions.Inthe present case,however,asaresult of the dimensionally restricted mass transfer inside the thin water films [15] that cover the oxide surface,e longated structures prevail ( Figure S1).…”
mentioning
confidence: 59%
“…[12][13][14] Crystalline particles with habits of nanosheets,p latelets,a nd needles do typically emerge under such conditions.Inthe present case,however,asaresult of the dimensionally restricted mass transfer inside the thin water films [15] that cover the oxide surface,e longated structures prevail ( Figure S1). [12][13][14] Crystalline particles with habits of nanosheets,p latelets,a nd needles do typically emerge under such conditions.Inthe present case,however,asaresult of the dimensionally restricted mass transfer inside the thin water films [15] that cover the oxide surface,e longated structures prevail ( Figure S1).…”
mentioning
confidence: 59%
“…The properties of related water layers depend on the surface properties of the substrate and are typically very different from those of macroscopically thick films. In such a form, water does not only contribute to the conversion of oxide surface layers into hydroxides, it can also act as a two‐dimensional solvent, which drives the alignment of oxide particles and enables the spontaneous structural and microstructural transformation of particle systems under ambient conditions …”
Section: Introductionmentioning
confidence: 99%
“…In such a form, water does not only contribute to the conversion of oxide surface layers into hydroxides, 7 it can also act as a two-dimensional solvent, which drives the alignment of oxide particles 8,9 and enables the spontaneous structural and microstructural transformation of particle systems under ambient conditions. [10][11][12] Knowledge about the chemical and physical stability of MgO-based nanostructures is of key interest for their ---…”
mentioning
confidence: 99%
“…Under ambient conditions, nanostructured and highly dispersed metal oxides are instantaneously coated with thin water films. These films provide an unexplored reaction medium with an essentially unknown interface chemistry affecting both the structural and functional properties of oxide materials under operational conditions [ 3 4 ].…”
Section: Introductionmentioning
confidence: 99%