We present an overview of recent static and time-resolved vibrational spectroscopic studies
of liquid water from ambient conditions to the supercooled state, as well as of crystalline and …

From a glass of water to glaciers in Antarctica, water–air and ice–air interfaces are abundant
on Earth. Molecular-level structure and dynamics at these interfaces are key for …

We present an overview of studies on the ultrafast dynamics of water at aqueous interfaces
carried out by time-resolved vibrational sum frequency generation (VSFG) spectroscopies …

The molecular characterization of the air/water interface is a key step in understanding
fundamental multiphase phenomena ranging from heterogeneous chemical processes in …

Discussion on the structure of the water surface relies on accurate determination of the χ (2)
spectrum. For obtaining accurate χ (2) spectrum of the air/water interface in the OH stretch …

Water interfaces provide the platform for many important biological, chemical, and physical
processes. The water–air interface is the most common and simple aqueous interface and …

Because of strong hydrogen bonding in liquid water, intermolecular interactions between
water molecules are highly delocalized. Previous two-dimensional infrared spectroscopy …

Ultrafast two-dimensional infrared spectroscopy (2D IR) has been advanced in recent years
toward measuring signals from only a monolayer of sample molecules at solid–liquid and …

We provide a detailed description of the structure of water at the interface with the air (liquid–
vapor LV interface) from state-of-the-art DFT-based molecular dynamics simulations. For the …

We report the hydrogen-bonding dynamics of water to a nitrile-functionalized and plasmonic
electrode surface as a function of applied voltage. The surface-enhanced two-dimensional …