麻豆淫院

Seeing details from a new angle can lead to game-changing discoveries. Using polarization-resolved sum-frequency generation vibrational spectroscopy (PS-SFG-VS) and a newly constructed sub-wavenumber high-resolution broadband SFG-VS (HR-BB-SFG-VS) capability available only at EMSL, scientists are uncovering new details about the structure and interactions in molecular monolayers and films, as well as showcasing how SFG spectral resolution and line shape in different polarization and incident angles are clarifying surface structure and intermolecular interactions.

EMSL staff and users from the Chinese Academy of Sciences analyzed polarization-dependent SFG vibrational spectra of the monovalent 鈭扖N groups buried in the C₁₈CN (organic cyanide) insoluble Langmuir monolayer at the air鈥搘ater interface.

These one-molecule-thick layers are the model system for studying structure and interactions at confined dimensions and serve as the building block for functional materials, as well as agents in broad industrial applications.

Because of its large dipoles and a vibrational spectrum that is sensitive to inhomogeneous chemical environments, 鈥揅N often is used as the probe in materials and biological studies. HR-BB-SFG-VS analyses of the C₁₈CN monolayer revealed two previously indistinguishable vibrational spectroscopic 鈭扖N shifts that are distinct but closely overlapping at the more hydrophobic 2244.5 cm^-1 and in direct contact with water at 2251.1 cm^-1.

Polarization data pinned the orientation angles for these two 鈭扖N groups as 67掳 and 50掳, respectively.

The unprecedented structural and interaction details afforded by HR-BB-SFG-VS鈥攅specially new knowledge about buried interfaces such as solid/liquid, liquid/liquid, and solid/solid, as well as on nanoparticles and porous surfaces鈥攃an impact areas such as catalysis, biogeological chemistry, and beyond.