Engineers describe a flexible film using a quasi-one-dimensional nanomaterial filler that combines excellent electromagnetic shielding with ease of manufacture.

Most every electronic circuit will pose the threat of EMI radiation on other circuitry, with drones and UAVs being particularly susceptible. There’s one simple but important solution ...

Furthermore, they highlighted the current challenges faced by polymer/MXene nanocomposites in EMI shielding applications and provided new ideas for the development and design of next-generation ...

The composites demonstrated exceptional EMI shielding materials in the gigahertz and sub-terahertz frequency ranges, important for current and future communication technologies, while remaining ...

Electrochemically modulated EMI shielding behaviors of MXene films. (a) Schematic of the shield, which consists of MXene electrodes on a PET substrate and an electrolyte-containing polymer membrane.

A research team has reported the successful synthesis of high-purity, tunable nitrogen (N)-substituted MAX precursors and the resultant MXene two-dimensional (2D) materials—a first in the world.

Figure 1. EMI mechanism 1. Image Credit: Inovenso Definition Electromagnetic shielding refers to the use of materials or structures to block or reduce the electromagnetic radiation that can be emitted ...

EMI shield: A transparent and flexible silver mesh allows high-quality infrared wireless optical communications while also exhibiting efficient electromagnetic interference shielding in the microwave ...

Reseracher in the DNI hope to develop MXene/polymer composites that combine excellent mechanical properties, electrical conductivity, EMI shielding and/or electromagnetic wave absorption capability ...

Engineers describe a flexible film using a quasi-one-dimensional nanomaterial filler that combines excellent electromagnetic shielding with ease of manufacture.