Cerebral blood flow is essential for normal brain function and often perturbed in neurological disease. If one shines a ...

Asteroids are some of the oldest objects in the solar system: leftovers from the chaotic time when planets were assembling ...

Researchers' simulations showed how and why changing the electrode potential achieves hydrogen production on TiO2 ...

UK researchers have successfully analyzed preservatives within some of Charles Darwin's historic specimen jars without ...

Normally, to use this kind of imaging, scientists would coat micro- and nanoplastics with a fluorescent dye. With the newly ...

Deep-UV resonance Raman (DUVRR) spectroscopy with excitation at 266 nanometers, matching the maximum UV absorption of mRNA, enables spectral differentiation of mRNA based on its degree of ...

Discover how Imaris 11 streamlines image analysis with automated workflows, reproducibility tools, and powerful batch processing.

Light speckle fluctuations, a noninvasive proxy for cerebral blood flow index (CBFi), are quantified by diffuse correlation spectroscopy. However, this conventional technique provides marginal brain ...

The Deep Potential Model paired with Raman spectroscopy show unexpected findings when a highly symmetric material is bent in a zigzag pattern.

To use this evidence, investigators typically must grow the larvae until adulthood in a laboratory setting and then identify ...

At Pittcon 2026 in San Antonio, Dr. Lenka Halámková of Texas Tech walked through a multimodal workflow that combines Raman ...

Dr Priyanka Dey has secured funding to develop a new technique that will give us a richer understanding of what cancer cells are made of and how they change as disease progresses ...