Triboelectric nanogenerators (TENGs) play a crucial role in attaining sustainable energy for
various wearable devices. Polymer materials are essential components of TENGs …

The seamless integration of advanced triboelectric nanogenerators with fiber material has
propelled the rapid advancement of intelligent wearable electronics. The overheating and …

Ultralow temperature-tolerant electronic skins (e-skins) can endow polar robots with tactile
feedback for exploring in extremely cold polar environments. However, it remains a …

Constructing micro/nano structures on frictional materials is a widely employed method for
enhancing the output performance of triboelectric nanogenerators (TENGs). However, the …

In the realm of wearable electronics, the development of materials that can endure and
adapt to the human experience while harvesting energy is paramount. Herein, we introduce …

Flexible and stretchable electronics promote the development of electronic devices in a
more flexible, convenient, and human-friendly direction, showing huge application potential …

Determining the optimal method for preparing supramolecular materials remains a profound
challenge. This process requires a combination of renewable raw materials to create …

With the advancement of modern technology, target shooting machines are now widely used
in military training, competitive sports, and recreation. However, they are prone to …

A common approach for develo** thermosetting polymers with self-healing performance is
to introduce covalent adaptive networks into crosslinked systems. However, most self …

Thermosetting foams have limited capabilities for recycling, reprocessing, or resha**.
Moreover, most of the foaming agents currently employed in these foams are derived from …