Your search keyword '"Yusong Tu"' showing total 3 results

1. Reversible State Transition in Nanoconfined Aqueous Solutions

Author

Zuowei Wang, Liang Zhao, Jian Liu, Chunlei Wang, Binghai Wen, Yusong Tu, and Haiping Fang

Subjects

Phase transition, Aqueous solution, Materials science, Nucleation, Water, General Physics and Astronomy, Molecular Dynamics Simulation, Phase Transition, Gibbs free energy, Solutions, symbols.namesake, Molecular dynamics, Models, Chemical, Chemical physics, Cluster (physics), symbols, Nanoparticles, Thermodynamics, Physical chemistry, Molecule, Dispersion (chemistry)

Abstract

Using molecular dynamics simulations, we find a reversible transition between the dispersion and aggregation states of solute molecules in aqueous solutions confined in nanoscale geometry, which is not observed in macroscopic systems. The nanoscale confinement also leads to a significant increase of the critical aggregation concentration (CAC). A theoretical model based on Gibbs free energy calculation is developed to describe the simulation results. It indicates that the reversible state transition is attributed to the low free energy barrier (of order k(B)T) in between two energy minima corresponding to the dispersion and aggregation states, and the enhancement of the CAC results from the fact that at lower concentrations the number of solute molecules is not large enough to allow the formation of a stable cluster in the confined systems.

Published

2014

2. Water-COOH Composite Structure with Enhanced Hydrophobicity Formed by Water Molecules Embedded into Carboxyl-Terminated Self-Assembled Monolayers.

Author

Pan Guo, Yusong Tu, Jinrong Yang, Chunlei Wang, Nan Sheng, and Haiping Fang

Subjects

*MOLECULAR dynamics, *QUANTUM mechanics, *MOLECULAR self-assembly, *MONOMOLECULAR films, *HYDROGEN bonding

Abstract

By combining molecular dynamics simulations and quantum mechanics calculations, we show the formation of a composite structure composed of embedded water molecules and the COOH matrix on carboxyl-terminated self-assembled monolayers (COOH SAMs) with appropriate packing densities. This composite structure with an integrated hydrogen bond network inside reduces the hydrogen bonds with the water above. This explains the seeming contradiction on the stability of the surface water on COOH SAMs observed in experiments. The existence of the composite structure at appropriate packing densities results in the two-step distribution of contact angles of water droplets on COOH SAMs, around 0° and 35°, which compares favorably to the experimental measurements of contact angles collected from forty research articles over the past 25 years. These findings provide a molecular-level understanding of water on surfaces (including surfaces on biomolecules) with hydrophilic functional groups. [ABSTRACT FROM AUTHOR]

Published

2015

3. Reversible State Transition in Nanoconfined Aqueous Solutions.

Author

Liang Zhao, Chunlei Wang, Jian Liu, Binghai Wen, Yusong Tu, Zuowei Wang, and Haiping Fang

Subjects

*AQUEOUS solutions, *MOLECULAR dynamics, *CLUSTERING of particles, *ACTIVATION energy, *GIBBS' free energy

Abstract

Using molecular dynamics simulations, we find a reversible transition between the dispersion and aggregation states of solute molecules in aqueous solutions confined in nanoscale geometry, which is not observed in macroscopic systems. The nanoscale confinement also leads to a significant increase of the critical aggregation concentration (CAC). A theoretical model based on Gibbs free energy calculation is developed to describe the simulation results. It indicates that the reversible state transition is attributed to the low free energy barrier (of order kBT) in between two energy minima corresponding to the dispersion and aggregation states, and the enhancement of the CAC results from the fact that at lower concentrations the number of solute molecules is not large enough to allow the formation of a stable cluster in the confined systems. [ABSTRACT FROM AUTHOR]

Published

2014