Structure of liquid and glassy methanol confined in cylindrical pores

Morineau, Denis; Guégan, Régis; Xia, Yongde; Alba‐Simionesco, Christiane

doi:10.1063/1.1762872

Cited by 67 publications

(101 citation statements)

References 33 publications

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“…Our findings compare well with experimental results on the dynamics of "conventional" liquid condensates [8,84,[98][99][100][101][102][103] confined in nanoporous media. In particular, the observation of distinct core and shell molecular mobilities is also in good agreement with experimental studies on pore-confined liquid crystalline systems presented in the past [7, 58-66, 69, 70], most prominently with the work by Aliev et al discussed in the introduction.…”

Section: Discussionsupporting

confidence: 79%

Inhomogeneous relaxation dynamics and phase behaviour of a liquid crystal confined in a nanoporous solid

et al. 2015

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We report filling-fraction dependent dielectric spectroscopy measurements on the relaxation dynamics of the rod-like nematogen 7CB condensed in 13 nm silica nanochannels. In the film-condensed regime, a slow interface relaxation dominates the dielectric spectra, whereas from the capillarycondensed state up to complete filling an additional, fast relaxation in the core of the channels is found. The temperature-dependence of the static capacitance, representative of the averaged, collective molecular orientational ordering, indicates a continuous, paranematic-to-nematic (P-N) transition, in contrast to the discontinuous bulk behaviour. It is well described by a Landau-deGennes free energy model for a phase transition in cylindrical confinement. The large tensile pressure of 10 MPa in the capillary-condensed state, resulting from the Young-Laplace pressure at highly curved liquid menisci, quantitatively accounts for a downward-shift of the P-N transition and an increased molecular mobility in comparison to the unstretched liquid state of the complete filling. The strengths of the slow and fast relaxations provide local information on the orientational order: The thermotropic behaviour in the core region is bulk-like, i.e. it is characterized by an abrupt onset of the nematic order at the P-N transition. By contrast, the interface ordering exhibits a continuous evolution at the P-N transition. Thus, the phase behaviour of the entirely filled liquid crystal-silica nanocomposite can be quantitatively described by a linear superposition of these distinct nematic order contributions.

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Section: Discussionsupporting

confidence: 79%

Inhomogeneous relaxation dynamics and phase behaviour of a liquid crystal confined in a nanoporous solid

et al. 2015

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“…Such depression of the phase transition temperatures has been reported in literature to be characteristic of confined molecules in porous materials. [711][712][713][714][715][716] Remarkably, IB solidified in a glassy state and in a crystalline form when confined in MCM-41 35 and MCM-41 116 , respectively. Authors attributed these two radically different behaviors to steric effects; that is, crystalline ibuprofen is a dimer with a total length of  26 Å so that pores of 116 Å diameters were large enough to allow nucleation of crystallites, whereas pores of 35 Å diameters, even if the dimer fitted inside, were exceedingly constrained, thus inducing a vitrification process.…”

Section: Interaction With Drugs and Natural Productsmentioning

confidence: 99%

Silica Surface Features and Their Role in the Adsorption of Biomolecules: Computational Modeling and Experiments

et al. 2013

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“…One of the simplest anisotropic molecules is methanol. As of yet, its liquid state in confined geometries has been studied only inside cylindrical nanotubes [9][10][11][12][13][14][15][16][17] .…”

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confidence: 99%

Strings-to-Rings Transition and Antiparallel Dipole Alignment in Two-Dimensional Methanols

Zangi

Roccatano

2016

Nano Lett.

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Structural order emerging in the liquid state necessitates a critical degree of anisotropy of the molecules. For example, liquid crystals and Langmuir monolayers require rodor disc-shaped and long-chain amphiphilic molecules, respectively, to break the isotropic symmetry of liquids. In this Letter we present results from molecular dynamics simulations demonstrating that in two-dimensional liquids, a significantly smaller degree of anisotropy is sufficient to allow structural organization. In fact, the condensed phase of the smallest amphiphilic molecule, methanol, confined between two, or adsorbed on, graphene sheets forms a monolayer characterized by long chains of molecules. Intrachain interactions are dominated by hydrogen bonds, whereas interchain interactions are dispersive. Upon a decrease in density toward a gaslike state, these strings are transformed into rings. The two-dimensional liquid phase of methanol undergoes another transition upon cooling; in this case, the order−disorder transition is characterized by a low-temperature phase in which the hydrogen bond dipoles of neighboring strings adopt an antiparallel orientation.

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Structure of liquid and glassy methanol confined in cylindrical pores

Cited by 67 publications

References 33 publications

Inhomogeneous relaxation dynamics and phase behaviour of a liquid crystal confined in a nanoporous solid

Inhomogeneous relaxation dynamics and phase behaviour of a liquid crystal confined in a nanoporous solid

Silica Surface Features and Their Role in the Adsorption of Biomolecules: Computational Modeling and Experiments

Strings-to-Rings Transition and Antiparallel Dipole Alignment in Two-Dimensional Methanols

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