Performance‐enhanced eco‐friendly triboelectric nanogenerator via wettability manipulation of lignin

Abstract: Eco‐friendly and sustainable energy harvests that can alleviate concerns on the energy crisis and environmental pollution are in demand. Exploiting nature‐derived biomaterials is imperative to develop these carbon‐neutral energy harvesters. In this study, lignin/polycaprolactone nanofiber (NF)‐based triboelectric nanogenerators (TENGs) are fabricated using an electrospinning technique. Nanotextured morphology of electrospun lignin/polycaprolactone NFs and wettability modification of lignin into hydrophilicity … Show more

“…These chemical enhancements are designed to introduce Recent advancements in chemical modification techniques have further unlocked lignin's potential in this domain. These chemical enhancements are designed to introduce functional groups, thereby amplifying the triboelectric effect and, consequently, the efficiency of energy conversion [70][71][72] (Figure 5b-d). The essence of chemically modifying lignin lies in transforming its surface properties to optimize its triboelectric performance.…”

Advanced Triboelectric Applications of Biomass-Derived Materials: A Comprehensive Review

“…These chemical enhancements are designed to introduce Recent advancements in chemical modification techniques have further unlocked lignin's potential in this domain. These chemical enhancements are designed to introduce functional groups, thereby amplifying the triboelectric effect and, consequently, the efficiency of energy conversion [70][71][72] (Figure 5b-d). The essence of chemically modifying lignin lies in transforming its surface properties to optimize its triboelectric performance.…”

Advanced Triboelectric Applications of Biomass-Derived Materials: A Comprehensive Review

Unveiling the mechanism of lignin nanofiller in boosting the performance of triboelectric nanogenerators

Lignin-derived materials for triboelectric nanogenerators with emphasis on lignin multifunctionality