Research on graphene has made great strides in recent years. However, to fully harness its potential in applications such as ...

Infrared (IR) spectroscopy is a precise analytical method that detects molecular vibrations, creating unique spectra for identifying functional groups and structures. It’s used in fields from ...

Spectroscopy isn’t just for scientists in lab coats—it’s a toolkit anyone can learn to use for uncovering the hidden architecture of molecules. By combining NMR, IR, and other techniques, chemists can ...

Fiber optic SERS probes, called “optrodes,” combine spectroscopy with the flexibility and versatility of fiber optic cables.

Research on low-dimensional perovskites shows that precise molecular design can enhance solar cell performance, addressing ...

The uncinate fasciculus is a major white matter pathway involved in memory, emotion, and language, but its microscopic ...

A new fluorescence-based method detects and measures rare-earth elements in plants without damage, enabling repeated testing, ...

For many years, designing synthetic polymer systems has been inspired by the hierarchical self-assembly of folded proteins ...

UNC postdoctoral Ajit Prakash explores how G proteins function as intracellular pH sensors and how this affects cell ...

Perovskite solar cells, PSCs, have emerged as one of the most promising renewable energy technologies of the past decade.