Vibrational sum-frequency generation hyperspectral microscopy for molecular self-assembled systems
In this review, we discuss the recent developments and applications of vibrational sum-
frequency generation (VSFG) microscopy. This hyperspectral imaging technique can resolve …
frequency generation (VSFG) microscopy. This hyperspectral imaging technique can resolve …
Structure of the Silica/Divalent Electrolyte Interface: Molecular Insight into Charge Inversion with Increasing pH
The molecular origin of overcharging at mineral oxide surfaces remains a cause of
contention within the geochemistry, physics, and colloidal chemistry communities owing to …
contention within the geochemistry, physics, and colloidal chemistry communities owing to …
Liquid flow reversibly creates a macroscopic surface charge gradient
The charging and dissolution of mineral surfaces in contact with flowing liquids are
ubiquitous in nature, as most minerals in water spontaneously acquire charge and dissolve …
ubiquitous in nature, as most minerals in water spontaneously acquire charge and dissolve …
Efficient quantum vibrational spectroscopy of water with high-order path integrals: From bulk to interfaces
Vibrational spectroscopy is key in probing the interplay between the structure and dynamics
of aqueous systems. To map different regions of experimental spectra to the microscopic …
of aqueous systems. To map different regions of experimental spectra to the microscopic …
Influence of the hydrogen-bonding environment on vibrational coupling in the electrical double layer at the silica/aqueous interface
Vibrational spectroscopy is a powerful tool for determining the local hydrogen-bonding
environment. However, vibrational coupling present in H2O makes it difficult to relate …
environment. However, vibrational coupling present in H2O makes it difficult to relate …
Intermolecular interactions at the silica–liquid interface modulate the fermi resonance coupling in surface methanol
The buried solid/liquid interface between hydrophilic fused silica and binary solvent mixtures
of acetonitrile (MeCN) and methanol (MeOH) was studied with vibrational sum-frequency …
of acetonitrile (MeCN) and methanol (MeOH) was studied with vibrational sum-frequency …
Structure and sum-frequency generation spectra of water on uncharged Q 4 silica surfaces: a molecular dynamics study
KS Smirnov - Physical Chemistry Chemical Physics, 2020 - pubs.rsc.org
The structural characteristics and sum-frequency generation (SFG) spectra of water near
neutral Q4 silica surfaces were investigated by molecular dynamics simulations. The …
neutral Q4 silica surfaces were investigated by molecular dynamics simulations. The …
Influence of Charged Site Density on Local Electric Fields and Polar Solvent Organization at Oxide Interfaces
The characteristics of oxide surfaces such as their hydroxyl density, the associated acid–
base chemistry, and the resulting surface charge play a crucial role in modulating the …
base chemistry, and the resulting surface charge play a crucial role in modulating the …
Application of the approximate 3D-reference interaction site model (RISM) molecular solvation theory to acetonitrile as solvent
The integral equation formalism based reference interaction site model (RISM) molecular
solvation theory is applied to pure liquid acetonitrile and water–acetonitrile binary mixtures …
solvation theory is applied to pure liquid acetonitrile and water–acetonitrile binary mixtures …
On the Differences in the Mechanisms of Adsorption of Aromatic Heterocycles from Water–Acetonitrile Solutions on Octadecyl-Bonded Silica Gels
BR Saifutdinov, AK Buryak - Colloid Journal, 2019 - Springer
Abstract Adsorption of some 1, 3, 4-oxadiazoles and 1, 2, 4, 5-tetrazines from water–
acetonitrile solutions on Luna C 18 and Discovery C 18 silica gels with grafted octadecyl …
acetonitrile solutions on Luna C 18 and Discovery C 18 silica gels with grafted octadecyl …