A new review highlights a powerful, cleaner route to produce ultra-clean, customizable nanoparticles—key building blocks for ...

New method promises enhanced understanding of chemical reactions and material properties by applying a Nobel-prize winning technique in spectroscopy.

A new method turns noise into valuable data to enhance understanding of chemical reactions and material properties with unprecedented detail at the atomic level. The results of this research are now ...

A new method turns noise into valuable data to enhance understanding of chemical reactions and material properties with ...

Currently, direct-write waveguide fabrication is probably the most widely studied application of femtosecond laser micromachining in transparent dielectrics. Devices such as buried waveguides, power ...

Home > Science MIT's Laser-Printed 'Metamaterial' Is Both Stretchy and Strong The material could someday be used in flexible semiconductors, tear-resistant textiles, bioengineering scaffolds, and ...

In this video we explore the recently discovered process for creating flash graphene: the first economical method to make high quality turbostratic graphene in bulk. Using this method it's ...

While materials like glass and water typically exhibit steady refraction patterns, researchers have recently discovered ways to modify these properties using lasers. The changes occur on ultrafast ...

With increasing thermal fluxes, the performance of thermal interface materials (TIMs) that are used to reduce the thermal resistance between contacting surfaces in electronic devices, such as at the ...

A new technical paper titled “Epitaxial Si/SiGe Multi-Stacks: From Stacked Nano-Sheet to Fork-Sheet and CFET Devices” was published by researchers at Imec and Ghent University, et al. Abstract “After ...

Scientists at the University of Twente (UT), The Netherlands, have developed a new laser-based method to create highly-ordered semiconductor material at room temperature. The scientists say that this ...

Orbital Materials' software analyzes interactions between a random scatter of atoms and uses the information to repeatedly rearrange them, moving closer to a useful material with each cycle.