Add to ORKGAn understanding of first-order pressure-induced structural transitions is relevant to many research areas in geological and planetary sciences because it involves the study of materials exposed to high pressures. For example, solid-solid transitions in silicates are responsible for the seismic discontinuities in the earth's mantle (Chudinovskikh an
Using transition path sampling computer simulations, we reveal the nucleation mechanism of a pressur...
High-pressure behavior of coesite was studied on single crystals using diamond-anvil cells with neon...
Nanoparticles can self-organize into “supercrystals” with many potential applications. Different pat...
Single domain nanocrystals in a dense rock salt-structured (B1) polymorph of a material that adopts ...
Nanocrystals in the size range 12-21 nm of a model binary ionic material in the wurtzite (B4) struct...
Structural transition in materials represents one of the most profound changes materials can undergo...
Structural transition in materials represents one of the most profound changes materials can undergo...
High-pressure Se EXAFS is used to study pressure-induced structural transformations in CdSe nanocrys...
The behavior of nanocrystals under extreme pressure was investigated using synchrotron x-ray diffrac...
The study of nanoscale materials with well-controlled size and shape can be used to learn more about...
The kinetics and thermodynamics of structural transformations under pressure depend strongly on part...
The kinetics and thermodynamics of structural transformations under pressure depend strongly on part...
The investigation of the properties of matter under high pressure is becoming increasing important t...
International audiencePressure and temperature phase transitions of nanomaterials often differ signi...
Materials comprising of units or particles of the size of a few nano-meters have significantly diffe...
Using transition path sampling computer simulations, we reveal the nucleation mechanism of a pressur...
High-pressure behavior of coesite was studied on single crystals using diamond-anvil cells with neon...
Nanoparticles can self-organize into “supercrystals” with many potential applications. Different pat...
Single domain nanocrystals in a dense rock salt-structured (B1) polymorph of a material that adopts ...
Nanocrystals in the size range 12-21 nm of a model binary ionic material in the wurtzite (B4) struct...
Structural transition in materials represents one of the most profound changes materials can undergo...
Structural transition in materials represents one of the most profound changes materials can undergo...
High-pressure Se EXAFS is used to study pressure-induced structural transformations in CdSe nanocrys...
The behavior of nanocrystals under extreme pressure was investigated using synchrotron x-ray diffrac...
The study of nanoscale materials with well-controlled size and shape can be used to learn more about...
The kinetics and thermodynamics of structural transformations under pressure depend strongly on part...
The kinetics and thermodynamics of structural transformations under pressure depend strongly on part...
The investigation of the properties of matter under high pressure is becoming increasing important t...
International audiencePressure and temperature phase transitions of nanomaterials often differ signi...
Materials comprising of units or particles of the size of a few nano-meters have significantly diffe...
Using transition path sampling computer simulations, we reveal the nucleation mechanism of a pressur...
High-pressure behavior of coesite was studied on single crystals using diamond-anvil cells with neon...
Nanoparticles can self-organize into “supercrystals” with many potential applications. Different pat...