Shear-Induced Fabrication of Cellulose Nanofibril/Liquid Metal Nanocomposite Films for Flexible Electromagnetic Interference Shielding and Thermal Management

Abstract: To address electromagnetic interference (EMI) pollution in modern society, the development of ultrathin, highperformance, and highly stable EMI shielding materials is highly desired. Liquid metal (LM) based conductive materials have received enormous amounts of attention. However, the processing approach of LM/polymer composites represents great challenges due to the high surface tension and cohesive energy of LMs. In this study, we develop a universal one-step fabrication strategy to directly process composit… Show more

“…The development of future flexible electronics requires innovative solutions for lighter energy storage devices, but also electrodes and interconnections that are key components for all flexible electronics devices [9]. Any improvement of their electromechanical robustness is highly desirable to limit failure of flexible electronics.…”

Wrinkled TiNAgNW Nanocomposites for High-Performance Flexible Electrodes on TEMPO-Oxidized Nanocellulose

“…The development of future flexible electronics requires innovative solutions for lighter energy storage devices, but also electrodes and interconnections that are key components for all flexible electronics devices [9]. Any improvement of their electromechanical robustness is highly desirable to limit failure of flexible electronics.…”

Wrinkled TiNAgNW Nanocomposites for High-Performance Flexible Electrodes on TEMPO-Oxidized Nanocellulose

Flexible cellulose nanofiber-Fe3O4/liquid metal/graphene composite films with hierarchical gradient structure for efficient electromagnetic interference shielding and thermal management

Tailored eutectic alloy coating for enhanced EMI and X-ray protection by basalt fiber CNT/epoxy composite