Add to ORKGWe develop a model for the thermodynamics and evaporation dynamics of aerosol droplets of a liquid, such as water, surrounded by gas. When the temperature and the chemical potential (or equivalently the humidity) are such that the vapor phase is in the thermodynamic equilibrium state, then, of course, droplets of the pure liquid evaporate over a relatively short time. However, if the droplets also contain nanoparticles or any other non-volatile solute, then the droplets can become thermodynamically stable. We show that the equilibrium droplet size depends strongly on the amount and solubility of the nanoparticles within, i.e., on the nature of the particle interactions with the liquid and, of course, also on the vapor temperature and chemic...
The stability of nanoparticles and their supports are critical, but poorly understood, parameters fo...
We study the formation of a nanobubble around a heated nanoparticle in a bulk liquid by using molecu...
Classical thermodynamics is assumed to be valid up to a certain length-scale, below which the discon...
While experiments and continuum models have provided a relatively good understanding of the evaporat...
We develop a lattice gas model for the drying of droplets of a nanoparticle suspension on a planar s...
A model is presented for predicting the evaporation behavior of liquid droplets containing nano-size...
Drying of submicron solution aerosols, under controlled conditions, has been explored to prepare nan...
We introduce a model of chemically active particles of a multi-component fluid that can change their...
The structure of a critical nucleus or a larger post-critical droplet refers to the spatial distribu...
Phase transitions of nanoparticles are of fundamental importance in atmospheric sciences, but curren...
We present two statistical mechanics based methods for simulating the evaporation of droplets of nan...
The condensational growth of submicrometer aerosol particles to climate relevant sizes is sensitive ...
The heterogeneous condensation of a vapour onto a substrate is a key step in a wide range of chemica...
Droplet coalescence is a critical issue in atmospheric sciences. In this work, the coalescence of wa...
Nano-confined supercooled water occurs frequently in aqueous–organic aerosol nanodroplets that are u...
The stability of nanoparticles and their supports are critical, but poorly understood, parameters fo...
We study the formation of a nanobubble around a heated nanoparticle in a bulk liquid by using molecu...
Classical thermodynamics is assumed to be valid up to a certain length-scale, below which the discon...
While experiments and continuum models have provided a relatively good understanding of the evaporat...
We develop a lattice gas model for the drying of droplets of a nanoparticle suspension on a planar s...
A model is presented for predicting the evaporation behavior of liquid droplets containing nano-size...
Drying of submicron solution aerosols, under controlled conditions, has been explored to prepare nan...
We introduce a model of chemically active particles of a multi-component fluid that can change their...
The structure of a critical nucleus or a larger post-critical droplet refers to the spatial distribu...
Phase transitions of nanoparticles are of fundamental importance in atmospheric sciences, but curren...
We present two statistical mechanics based methods for simulating the evaporation of droplets of nan...
The condensational growth of submicrometer aerosol particles to climate relevant sizes is sensitive ...
The heterogeneous condensation of a vapour onto a substrate is a key step in a wide range of chemica...
Droplet coalescence is a critical issue in atmospheric sciences. In this work, the coalescence of wa...
Nano-confined supercooled water occurs frequently in aqueous–organic aerosol nanodroplets that are u...
The stability of nanoparticles and their supports are critical, but poorly understood, parameters fo...
We study the formation of a nanobubble around a heated nanoparticle in a bulk liquid by using molecu...
Classical thermodynamics is assumed to be valid up to a certain length-scale, below which the discon...