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October 18, 2025

Advances in Piezoelectric Energy Harvesting for Power Generation

Key Points

Advancements in piezoelectric energy harvesting reveal new potential for converting mechanical vibrations into electrical energy, particularly from footsteps.
Recent developments include materials like PZT and PVDF, showcasing applications in footstep power generation and sustainability.
The review covers advances in power electronics and complementary technologies like Triboelectric Nanogenerators that enhance energy harvesting efficiency.
Challenges in low current output and durability must be addressed to better implement this decentralized technology in urban environments.

Abstract

The escalating global energy demand is driving research into harvesting ambient energy, with piezoelectric materials offering a compelling method to convert mechanical vibrations, particularly from human footsteps, into electrical energy. This review consolidates recent advances in piezoelectric energy harvesting, focusing on material science, structural optimization, and practical application in footstep power generation. The developments across piezoelectric materials (PZT, PVDF, and nanocomposites), power electronics (rectification, supercapacitors), and complementary technologies like Triboelectric Nanogenerators (TENGs). Challenges like low current output, durability, and cost are discussed. This work highlights the path toward scaling this sustainable, decentralized technology for real-world urban and IoT applications.

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Advances in Piezoelectric Energy Harvesting for Power Generation

Key Points

Abstract

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