2013
DOI: 10.1063/1.4798941
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Communication: Growing room temperature ice with graphene

Abstract: Water becomes ordered in the form of hexagonal ice at room temperature under controlled humidity conditions upon confinement in the nanometer range between protective graphene sheets and crystalline (111) surfaces with hexagonal symmetry of the alkali earth fluoride BaF2. Interfacial water/substrate pseudoepitaxy turns out to be a critical parameter since ice is only formed when the lattice mismatch is small, an observation based on the absence of ice on (111) surfaces of isostructural CaF2

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Cited by 24 publications
(33 citation statements)
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“…For this type of modification, the interfacial layer residing between the substrate and the SLG flake due to its exfoliation in ambient, is anticipated to play a major role. Thin water films resulting from exfoliation in ambient have been recognized in literature as an important feature determining the sheet properties [3339]. The structures of type (iii) might act as a pressure release for heated water confined at the interface.…”
Section: Resultsmentioning
confidence: 99%
“…For this type of modification, the interfacial layer residing between the substrate and the SLG flake due to its exfoliation in ambient, is anticipated to play a major role. Thin water films resulting from exfoliation in ambient have been recognized in literature as an important feature determining the sheet properties [3339]. The structures of type (iii) might act as a pressure release for heated water confined at the interface.…”
Section: Resultsmentioning
confidence: 99%
“…In contrast with these findings, liquid-like droplets with thickness in the nanometer range appear as the typical morphology of confined water when graphene is mechanically exfoliated on top of some hydrophobic substrates [53], instead of mica [54,55]. Graphene template AFM experiments done in the case of the (111) face of the two isostructural alkali earth halides BaF 2 and CaF 2 showed a difference in the morphology and thickness of water films depending on the substrate [56]. On BaF 2 , the formation of more than five water layers with thicknesses compatible with the presence of Ih bilayers (3.7 Å) was observed, while on CaF 2 water layers with thickness in the nanometer range were reported, showing a liquid-like structure.…”
Section: Graphene Templatementioning
confidence: 99%
“…From the images, we can observe adsorbed water increasing from a sub-monolayer coverage (7% and 15% RH) to a complete monolayer (30% and 50% RH), multilayers (70% RH) and forming droplets on the surface (90% RH). (Reprinted with permission from reference [56], published by AIP Publishing LLC, 2013).…”
Section: Figurementioning
confidence: 99%
“…Substrate‐induced molecular rearrangement of fluids in nanocapillaries has been under study for many decades . In retrospect, computer simulations including potential energy landscape (PEL) and density functional theory (DFT) techniques along with experimental evidence from XAS and AFM have proved the existence of nonordinary water clusters upon fine entrapment . GLCs with thicknesses well below 100 nm are inherently confining their liquid content closely, allowing nanocapillaries to be examined inside TEMs.…”
Section: Future Glc Research Directionsmentioning
confidence: 99%