Water can form a vast number of topological frameworks owing to its hydrogen-bonding ability, with 19 different forms of ice experimentally confirmed at present. Here, the authors comment on open questions and possible future discoveries, covering negative to ultrahigh pressures
We model, via classical molecular dynamics simulations, the plastic phase of ice VII across a wide r...
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
Nuclear quantum effects lead to an anomalous shift of the volume of hexagonal ice; heavy ice has a l...
Of the fifteen known crystalline forms of ice, eleven consist of a single topologically connected hy...
Ice and ice clathrate are not only omnipresent across polar regions of Earth or under terrestrial oc...
Our recent discovery of three new phases of ice has increased the total number of known distinct pol...
Studies of the structure of supported water clusters provide ameans for obtaining a rigorousmolecula...
The structure of the hydrogen bond network is a key element for understanding water’s thermodynamic ...
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
In recent years, evidence has emerged that solid water can contain substantial amounts of guest spe...
Author Institution: The Ohio State University, Columbus, OH 43210 email: lars@sodium.mps.ohio-state....
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
Experiments and computer simulations have established that liquid water's surfaces can deviate in im...
Using ab initio methods, we examine the stability of ice 0, a recently proposed tetragonal form of i...
Ice and water are made up of H2O molecules which is form by one oxygen atom covalently bonded to 2 h...
We model, via classical molecular dynamics simulations, the plastic phase of ice VII across a wide r...
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
Nuclear quantum effects lead to an anomalous shift of the volume of hexagonal ice; heavy ice has a l...
Of the fifteen known crystalline forms of ice, eleven consist of a single topologically connected hy...
Ice and ice clathrate are not only omnipresent across polar regions of Earth or under terrestrial oc...
Our recent discovery of three new phases of ice has increased the total number of known distinct pol...
Studies of the structure of supported water clusters provide ameans for obtaining a rigorousmolecula...
The structure of the hydrogen bond network is a key element for understanding water’s thermodynamic ...
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
In recent years, evidence has emerged that solid water can contain substantial amounts of guest spe...
Author Institution: The Ohio State University, Columbus, OH 43210 email: lars@sodium.mps.ohio-state....
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
Experiments and computer simulations have established that liquid water's surfaces can deviate in im...
Using ab initio methods, we examine the stability of ice 0, a recently proposed tetragonal form of i...
Ice and water are made up of H2O molecules which is form by one oxygen atom covalently bonded to 2 h...
We model, via classical molecular dynamics simulations, the plastic phase of ice VII across a wide r...
The structure of the hydrogen bond network is a key element for understanding water's thermodynamic ...
Nuclear quantum effects lead to an anomalous shift of the volume of hexagonal ice; heavy ice has a l...