High-Pressure Photoelectron Spectroscopy (HPPES) advances catalysis research by enabling real-time surface analysis under ambient and high-pressure conditions.

What do microplastics, water color, and satellites have in common? Dr. Karl Kaiser, professor of marine and coastal environmental science in the College of Marine Sciences and Maritime Studies at ...

But this breakthrough doesn't stand alone; recent developments in plastic science and recycling include pyrolysis research to ...

With an advanced technology known as angle-resolved photoemission spectroscopy (ARPES), scientists are able to map out a material's electron energy-momentum relationship, which encodes the material's ...

Physical Chemistry applies the principles and concepts of physics to understand the basics of chemistry and explain how and why transformations of ...

Bioxytran, Inc. (OTCQB: BIXT) (“Bioxytran” or the “Company”), a clinical-stage biotechnology company developing platform technologies spanning glycovirology, hypoxia, and degenerative diseases, announ ...

The discovery of catalytic RNA transformed our understanding of life's beginnings. Clare Sansom explores how the RNA world ...

Scientists have identified the molecular interactions that give spider silk its exceptional strength, opening the door to new ...

The Materials Science Learning Center (MSLC) offers resources and expert insights to enhance materials characterization and accelerate scientific breakthroughs.

The fusion of biophotonics and AI is transforming healthcare, enhancing diagnostics and treatment with advanced light-based ...

3I/ATLAS is not acting like a textbook comet when heated by the sun. Accurate tracking via perihelion revealed a ...

They shaped the Universe, yet the first stars ever born continue to evade the searches of astronomers like Dr Emma Chapman ...