Electromagnetic (EM) absorbers drive the development of EM technology and advanced EM
equipment. The utilization of EM energy conversion of the EM absorber to design a variety of …

In recent years, the pursuit of high-performance nano-flexible electronic composites has led
researchers to focus on nanocellulose-graphene composites. Nanocellulose has garnered …

Smart generators that collect energy from the ambient environment are a new approach for
meeting growing global energy needs. Moisture is one of the most abundant resources in …

Cellulose, as the most abundant natural polysaccharide, is an excellent material for
developing green humidity sensors, especially due to its humidity responsiveness as a …

Due to the good biocompatibility and flexibility of cellulose and the excellent optical,
electronic, as well as mechanical properties of carbon nanomaterials (CNMs) …

Inspired by nacre-layered nanostructure, 1D 2, 2, 6, 6-tetramethyl-1-piperidinyloxy (TEMPO)-
oxidized cellulose nanofibers (TOCNFs) were used as the template to assemble 2D MXene …

In response to the growing demand for wearable devices and environmental monitoring, this
study presents a novel fabrication method for directionally aligned CNFs/MWCNTs aerogel …

Mechanical adaptability, great wearability, application stability, and self-powered sensing
characteristics are important requirements for hydrogel-based strain sensors. In this study, a …

Power generation by converting energy from the ambient environment has been considered
a promising strategy for developing decentralized electrification systems to complement the …

Moisture power generation (MPG) technology, producing clean and sustainable energy from
a humid environment, has drawn significant attention and research efforts in recent years as …