Water and the bad smelling molecule hydrogen sulfide do not seem to have a lot in common at first sight. However, when ...
the scientists illuminated liquid water with femtosecond (one quadrillionth of a second) laser pulses in the near-infrared spectrum. These ultra-short bursts of light create tiny charge ...
To distinguish between interacting and non-interacting molecules, the scientists illuminated liquid water with femtosecond (one quadrillionth of a second) laser pulses in the near-infrared spectrum.
By probing chemical processes observed in the Earth's hot mantle, scientists have started developing a library of basalt-based spectral signatures that not only will help reveal the composition of ...
By illuminating liquid water with femtosecond (one quadrillionth of a second) laser pulses in the near-infrared spectrum, the researchers can effectively distinguish between interacting and ...
Looking at things from a new angle To distinguish between interacting and non-interacting molecules, the scientists illuminated liquid water with femtosecond (one quadrillionth of a second) laser ...
In this comprehensive overview, we'll explore the structure, nomenclature, and physical properties of alkanoic acids.
While Fourier transform infrared spectroscopy ... In FTIR spectra of soil samples, the band at WN 3700 to 3,000 cm −1 is affected by OH groups of different soil constituents (e.g., oxides/hydroxides ...
This article introduces the ZeroCAL process, which uses electrochemical methods to produce portlandite from limestone without ...