Add to ORKGInternational audienceThe Boson peak of deeply cooled water confined in the pores of a silica xerogel is studied by inelastic neutron scattering at different hydration levels to separate the contributions from matrix, water on the pore surfaces and "internal" water. Our results reveal that at high hydration level, where the contribution from internal water is dominant, the temperature dependence of the Boson peak intensity shows an inflection point at about 225 K. The complementary use of differential scanning calorimetry to describe the thermodynamics of the system allows identifying the inflection point as the signature of a water liquid-liquid crossover
Abstract. Water is hypothesized to have a low temperature phase transition line which separates a hi...
We present here molecular dynamics simulations of deeply supercooled SPC/E water confined in a cylin...
Quasielastic neutron scattering was used to study the dynamics of three-dimensional confined water i...
International audienceThe Boson peak of deeply cooled water confined in the pores of a silica xeroge...
The boson peak of deeply cooled water confined in the pores of a silica xerogel is studied by inelas...
International audienceIn this work we investigate, by means of elastic neutron scattering, the press...
International audienceIn this work we investigate, by means of elastic neutron scattering, the press...
A silica xerogel can be obtained from an alcoxide precursor (TMOS, tetramethylortosilcate) via the s...
We perform extensive molecular dynamics simulations of the TIP4P/2005 model of water to investigate ...
In this paper, we present the results of deep inelastic neutron scattering (DINS) measurements on su...
In this work we investigate, by means of Elastic Neutron Scattering (ENS), the pressure dependence o...
Studies of single particle dynamics of water confined in silica pores performed with computer molecu...
We have observed fragile-to-strong dynamic crossover phenomena of alpha relaxation time and self dif...
The boson peak in deeply cooled water confined in nanopores is studied to examine the liquid-liquid ...
In this paper we present a review on our recent experimental investigations into the phase behavior ...
Abstract. Water is hypothesized to have a low temperature phase transition line which separates a hi...
We present here molecular dynamics simulations of deeply supercooled SPC/E water confined in a cylin...
Quasielastic neutron scattering was used to study the dynamics of three-dimensional confined water i...
International audienceThe Boson peak of deeply cooled water confined in the pores of a silica xeroge...
The boson peak of deeply cooled water confined in the pores of a silica xerogel is studied by inelas...
International audienceIn this work we investigate, by means of elastic neutron scattering, the press...
International audienceIn this work we investigate, by means of elastic neutron scattering, the press...
A silica xerogel can be obtained from an alcoxide precursor (TMOS, tetramethylortosilcate) via the s...
We perform extensive molecular dynamics simulations of the TIP4P/2005 model of water to investigate ...
In this paper, we present the results of deep inelastic neutron scattering (DINS) measurements on su...
In this work we investigate, by means of Elastic Neutron Scattering (ENS), the pressure dependence o...
Studies of single particle dynamics of water confined in silica pores performed with computer molecu...
We have observed fragile-to-strong dynamic crossover phenomena of alpha relaxation time and self dif...
The boson peak in deeply cooled water confined in nanopores is studied to examine the liquid-liquid ...
In this paper we present a review on our recent experimental investigations into the phase behavior ...
Abstract. Water is hypothesized to have a low temperature phase transition line which separates a hi...
We present here molecular dynamics simulations of deeply supercooled SPC/E water confined in a cylin...
Quasielastic neutron scattering was used to study the dynamics of three-dimensional confined water i...