Effects of surface and physical confinement on the phase transitions of cyclohexane in porous silica

Mu, Ruojun; Malhotra, V. M.

doi:10.1103/physrevb.44.4296

Cited by 118 publications

(86 citation statements)

References 25 publications

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“…there is large and important group of restricted geometry objects, namely materials confined within porous media (hereinafter we will call them confined materials -CM). In recent years properties of CM and in particular various types of phase transitions (PT) (superconducting [1,2], superfluid [3,4], melting-freezing [5,6,7,8,9,10,11] and others PTs [12,13,14,15,16,17,18,19,20,21,22] in different CM have been extensively studied by different experimental methods including calorimetry [5,7,20], NMR [9,21], ultrasonic [8,9] and dielectric [12,14,15] measurements, Raman [10,13], X-ray [12,16,17,18] and neutron scattering [10,14,22,23,24,25,26], differential thermal analysis [19] etc. It has been shown that CM can form either a system of isolated particle...…”

Section: Introductionmentioning

confidence: 99%

Temperature Evolution of Sodium Nitrite Structure in a Restricted Geometry

et al. 2002

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The NaNO2 nanocomposite ferroelectric material in porous glass was studied by neutron diffraction. For the first time the details of the crystal structure including positions and anisotropic thermal parameters were determined for the solid material, embedded in a porous matrix, in ferroand paraelectric phases. It is demonstrated that in the ferroelectric phase the structure is consistent with bulk data but above transition temperature the giant growth of amplitudes of thermal vibrations is observed, resulting in the formation of a "premelted state". Such a conclusion is in a good agreement with the results of dielectric measurements published earlier.

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Section: Introductionmentioning

confidence: 99%

Temperature Evolution of Sodium Nitrite Structure in a Restricted Geometry

et al. 2002

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“…The temperatures of solid I -solid II transition, that is the transition to plastic phase, observed for TBC confined to CPG with 15.6 nm as well as 7.4 nm pore diameter is also depressed, 5 K and 21 K, respectively. Similarly to the results for cyclohexane [21,23,25], the extent of the depression, is smaller than that of the freezing temperatures, 17 K and 43 K, respectively.…”

Section: Dscmentioning

confidence: 54%

“…The first peak at 247 K is assigned to liquid-solid I transition, while the latter to the solid I -solid II (at 214 K) and solid II -solid III (182.4 K) transitions. The characteristic larger peak at 214 K marks the transition to the plastic phase, in which molecules are very mobile and orientationally disordered [21][22][23].…”

Section: Dscmentioning

confidence: 99%

Molecular Dynamics of Tert-butyl Chloride Confined to CPG (7.4, 15.6 nm)

2005

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The paper complements our earlier NMR investigation of molecular dynamics of tert-butyl chloride restricted by geometries of the type MCM-41 and CPG by the new sizes of CPG and by differential scanning calorimetry method. We report proton and deuteron NMR lineshapes and the spin--lattice relaxation results of tert-butyl chloride in CPG of the 15.6 nm and 7.4 nm pore diameter in the temperature range 70 K ≤ T ≤ 292 K. The bulk-like component of the confined tert-butyl chloride, in temperatures corresponding to phase III, is interpreted as a composition of two dynamically different subphases. The parameters of motions of both subphases are derived. The tert-butyl group motion in both subphases is more restricted than in the bulk tert-butyl chloride, although the activation energies are lower. Differential scanning calorimetry was used to determine temperatures of the phase transitions (140 K ≤ T ≤ 292 K). The results show that the depression of the phase transition temperature is pore size dependent and that the confinement has less influence on transition to the plastic phase than on the freezing and on the solid II -solid III transition.

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“…The melting and freezing within porous glasses have been observed for materials such as water, organic liquids [5,6], metals with low melting point [7][8][9][10][11], helium [12], oxygen and some other simple liquids [13][14][15]. The ferroelectric phase transition within porous glass has been observed for NaNO 2 and K 2 HPO 4 [16,17].…”

Section: Introductionmentioning

confidence: 99%

Nanostructured Coatings of Inner Surfaces in Microporous Matrixes

Kumzerov

2000

Nanostructured Films and Coatings

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Effects of surface and physical confinement on the phase transitions of cyclohexane in porous silica

Cited by 118 publications

References 25 publications

Temperature Evolution of Sodium Nitrite Structure in a Restricted Geometry

Temperature Evolution of Sodium Nitrite Structure in a Restricted Geometry

Molecular Dynamics of Tert-butyl Chloride Confined to CPG (7.4, 15.6 nm)

Nanostructured Coatings of Inner Surfaces in Microporous Matrixes

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