Lauren E. Buchanan, Joshua K. Carra, Aaron M. Fluitt, Andrew J. Hoganson, Sean D. Moran, Juan J. de Pablo, James L. Skinner, Martin T. Zanni Proceedings of the ...

This approach addresses the limitations of traditional optical techniques, particularly Fourier-transform infrared (FTIR) spectroscopy, which requires large optically active areas to achieve ...

The molecular structure of a catalytically active key intermediate is determined in solution by employing 2D IR spectroscopy measuring vibrational cross-angles. The formate intermediate (2) in the ...

MIT's Sam Peng (foreground), and Paul Stevenson, a graduate student in chemistry at the University of Chicago, adjust the two-dimensional infrared spectroscopy system in the laboratory of Professor ...

The nanoIR3-s Broadband from Bruker is the world’s most sophisticated s-SNOM-based nanoscale FTIR spectroscopy system. The system offers the widest possible spectral range (from 670 to 4000 cm −1) ...

Raman spectroscopy has been highlighted as a vital tool for characterizing 2D materials-based van der Waal heterostructures. In this article, we explore its applications in analyzing graphene, TMDs ...

Infrared vibrational spectroscopy could enable the production of high-resolution maps of molecules inside live cells and cell organelles. A new study from Helmholtz-Zentrum Berlin (HZB) and Humboldt ...

I'd start by focusing on the fact that spectroscopy is essentially a series of unrelated disciplines, since lots of phenomena can be described along a spectrum. So, for example, mass spec and NMR ...

Although most of our electronic devices, like mobile phones, laptops and electric vehicles use lithium rechargeable batteries, what is going on inside them is not fully understood. Researchers from ...

Infrared spectroscopy (IRS) is a technique used to analyze individual substances in isolation or a mixture, using their spectral information. IRS is based on the measurement of the wavelength and ...