Oxford Instruments introduces the Jupiter Discovery Atomic Force Microscope (AFM) to deliver best-in-class performance and ...

A new study reveals glaphene, a hybrid of graphene and silica, showcasing strong interlayer interactions that enhance its potential for innovative applications.

This study presents a bilayer graphene model that regulates conductivity through controlled rotation, offering insights for ...

A new study uses plasmonic-enhanced optical techniques to monitor resistive switching in monolayer hBN memristive devices.

A recent review in npj 2D Materials and Applications highlights how 2D materials like MoS2 and graphene are enabling ...

A new study in Small presents a nanoparticle-based delivery system combining CuET and BIO for treating resistant melanoma, ...

Inhalable nanovaccines offer needle-free, mucosal immunity against respiratory diseases like COVID-19, influenza, and TB. Explore delivery mechanisms, key technologies, and future breakthroughs.

AI advancements in microscopy are reshaping electromechanical measurements, streamlining automated experimentation and ...

A research team from Shinshu University embedded trimetallic and bimetallic molybdates into hollow carbon nanofibers doped ...

A collaborative research team from Empa, ETH Zurich, the Cantonal Hospital of St. Gallen, and Zhejiang University in China ...

Rutgers researchers unveil intercrystals, a new material class with unique electronic properties, paving the way for advanced ...

A quantum semiconductor nanocluster has been successfully used as a photocatalyst for hydrogen production, opening new ...