Electromagnetic interference can be a serious problem for electronic devices, so shielding is usually placed around components. Now, engineers at Drexel University have found that a 2D material called ...

Scientists have developed a new material: an ultra-thin film that can absorb over 99% of electromagnetic waves. The Korea Institute of Materials Science (KIMS) states it to be the “world's first ultra ...

Containing the electromagnetic radiation generated by electronic components is a key consideration for designers of electronic devices, but today’s metal-based shielding materials have their downsides ...

A number of direct and indirect measurement methods and techniques were developed to characterize the microwave shield, in past century. Even numerous textbooks, reviews and articles have been ...

· The advantages of biomass materials for electromagnetic interference (EMI) shielding are analyzed, the mechanism of EMI shielding is summarized, and the factors affecting EMI shielding are analyzed ...

A domestic research team has developed a MXene material in the form of an ultra-thin film, just one-tenth the thickness of a human hair, that can perfectly block electromagnetic waves in the ...

Researchers have discovered a MXene material that presents exceptional electromagnetic interference shielding abilities. As we welcome wireless technology into more areas of life, the additional ...

The advent of two-dimensional nanomaterials with modifiable surface properties, such as MXenes, has recently transformed the field of electromagnetic interference (EMI) shielding. Schematics and TEM ...

(Nanowerk Spotlight) There is a strong need for more efficient electromagnetic interference (EMI) shielding materials characterized by low-weight, mechanical stability, resistance to oxidation, ...

An extremely lightweight material which can be used for electromagnetic shielding has been developed by researchers at the University of Virginia’s School of Engineering and Applied Science. The ...

Researchers at Drexel and KIST reported that a new MXene material, titanium carbonitride, can shield the electromagnetic interference better than materials currently being used in electronics devices.