PI (Physik Instrumente), a global leader in precision motion control and nanopositioning systems, released a new brochure introducing PI as a long-term OEM partner for cutting-edge solutions in ...

Learn which nanocarriers matter now (LNPs, exosomes, polymers) and the key hurdles in biodistribution, safety, CMC, and ...

The optofluidic approach to 3D microfabrication achieves high assembly rates and broad material use, paving the way for advanced microdevice applications.

A review on nano-architected mechanical metamaterials reveals how nanoscale geometry transforms material properties for ...

Learn how 4D digital holographic microscopy provides real-time, non-contact measurement of MEMS micromirror deformation, ...

Researchers at the University of Cambridge have effectively transformed methane (natural gas) into hydrogen while achieving ...

The 'Carbon Queen,' Mildred Dresselhaus, advanced carbon research, leading to key insights in graphene discovery and the ...

Researchers developed an innovative metal-organic framework that induces oxidative stress in tumors, leading to total cancer cell eradication without toxicity.

PI (Physik Instrumente) announced a new technology platform for electro-optical wafer-level testing designed to validate electrical and optical device functions simultaneously in high-volume ...

There has been significant practical interest in the conductivity of CNTs. CNTs with particular combinations of M and N (structural parameters indicating how much the nanotube is twisted) can be ...

Nanomaterials are materials with at least one dimension smaller than 100 nanometres (about 100,000 times thinner than a human hair). Because of their tiny size, they have unique properties that can be ...

Semiconductors or microchips are the foundational components powering the modern technological landscape. These tiny electronic devices process, store, and transmit data in various electronic devices, ...