Litcius/Paper detail

Ultrahigh Charge Density of Cellulose-Based Triboelectric Materials Based on Built-in Electric Field and Deep Trap Synergy

Feijie Wang, Chao Jia, Suyang Wang, Yichi Liu, Shiqiang Ouyang, Shenzhuo Zhang, Yueming Hu, Junhua Zhao, Shufeng Ma, Zhen Wu, Liqiang Wang

2025Nano Letters16 citationsDOI

Abstract

Cellulose-based triboelectric nanogenerators (TENGs) are increasingly studied as potential candidates for advancing sustainable wearable electronics due to their biodegradability, self-powering capability, and high sensitivity. However, the near-electroneutrality of cellulose and its lack of efficient charge storage sites result in rapid charge dissipation. This study’s synergistic approach of constructing deep traps and built-in electric fields effectively promotes charge trapping. This approach achieved nearly 2 orders of magnitude improvement in the deep-trap density of the modified cellulose and a 74% reduction in the charge dissipation rate, compared with cellulose, yielding a charge density as high as 332 μC/m 2, comparable to the output produced by the ion injection. The integrated TENG demonstrates reliable and high-sensitivity signal transmission as a wearable electronic device. This study presents a simple and scalable strategy for fabricating high-performance cellulose-based TENGs, underscoring the significant potential of cellulose in sustainable self-powered wearable electronics.

Topics & Concepts

Triboelectric effectElectric fieldMaterials scienceCelluloseTrap (plumbing)NanotechnologyCharge (physics)Charge densityChemical engineeringComposite materialPhysicsEngineeringMeteorologyQuantum mechanicsAdvanced Sensor and Energy Harvesting MaterialsConducting polymers and applicationsElectromagnetic wave absorption materials