Energy Generator on Fiber Reinforcement Plate

A core–shell fiber moisture-driven electric generator enabled by

The authors present a core–shell fiber moisture-driven electric generator by a synergetic complex coacervation and built-in potential strategy, enabling self-powered human interactive sensors...

Sustainable thermoelectric energy harvesting in fly ash bamboo fiber

In this study, we aim to evaluate and compare the thermoelectric performance of three distinct concrete configurations systematically: fly ash-plain reinforced concrete, fly ash-bamboo fiber

Fiber-Reinforced Composites for High-Performance Triboelectric

Triboelectric nanogenerators (TENGs) have garnered significant attention as a promising energy harvesting technology, capable of converting mechanical energy into electrical energy with high

A hierarchically modified fibre-reinforced polymer composite laminate

In this study, a multifunctional, hierarchically modified glass fiber-reinforced polymer composite laminate (GFRP) capable of harvesting thermoelectric energy is fabricated and demonstrated.

Nanostructures and Nanomaterials Integrated into Triboelectric

These devices have become a focus of interest due to their capacity to effectively transform kinetic energy into electrical power via combined triboelectrification and electrostatic

Design Optimization of the Bouncing Ball Structure

Experimental results demonstrated that TENG on carbon fiber reinforced polymer plate (TENG-CFRP) incorporating polypropylene (PP) balls

Full article: From vibration to information: self-powered crack

In this study, a piezoelectric composite was fabricated by laminating carbon fiber-reinforced polymer (CFRP) onto a potassium sodium niobate – epoxy (KNN – epoxy) layer. The

Design Optimization of the Bouncing Ball Structure Triboelectric

Experimental results demonstrated that TENG on carbon fiber reinforced polymer plate (TENG-CFRP) incorporating polypropylene (PP) balls exhibited significantly enhanced electrical

Fiber composites-based flexible triboelectric nanogenerators: from

By bridging foundational material science with innovative applications, this review seeks to inspire the development of high-performance, self-powered electrospun composite tribovoltaic

Fiber composites-based flexible triboelectric

By bridging foundational material science with innovative applications, this review seeks to inspire the development of high-performance, self-powered

Fiber-Based Piezoelectric Generators: Harvesting Energy from

This essay explores the exciting field of fiber-based piezoelectric generators, which leverage the flexibility and ubiquity of fibers to create new avenues for powering portable electronics, wearable

Nanostructures and Nanomaterials Integrated into

These devices have become a focus of interest due to their capacity to effectively transform kinetic energy into electrical power via combined

A novel triboelectric nanogenerator based on carbon fiber reinforced

In this paper, we demonstrate a novel, lightweight, and designable anisotropic stiffness triboelectric nanogenerator (TENG) and displacement sensor. The triboelectric pairs consist of the carbon fiber

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