Hybrid Triboelectric Nanogenerators: Revolutionizing the Energy Harvesting through Material Diversity and Device Architecture for Different Applications
APS Prasanna, M Anithkumar, SJ Kim - Nano Energy, 2024 - Elsevier
Triboelectric nanogenerators (TENGs) are transforming energy harvesting by cleverly
combining them with other energy sources. Hybrid triboelectric nanogenerators offer a …
combining them with other energy sources. Hybrid triboelectric nanogenerators offer a …
Crumpled nanogenerator based on elastic modulus design for fully self-powered high-speed rail speed measurement
X Shen, X Wang, M Yu, H Wang, F Xu… - ACS Applied Nano …, 2024 - ACS Publications
Self-powered sensors are an important application development direction of
nanogenerators. The development of fully self-powered systems that do not rely on …
nanogenerators. The development of fully self-powered systems that do not rely on …
A centrifugal spring mechanism empowers self-adjusting in piezoelectric wind energy harvesting
W Liao, X Su, F Fang - Nano Energy, 2025 - Elsevier
Piezoelectric wind energy harvesters (PWEHs) offer promises in sustainable green energy
supply for micropower electronics. However, traditional PWEHs encounter challenges in …
supply for micropower electronics. However, traditional PWEHs encounter challenges in …
Enhancing output performance of piezoelectric nanogenerator via negative Poisson's ratio effect
Enhancing the output performance of piezoelectric nanogenerators (PENG) is crucial for the
timely realization of self-powered IoT sensor clusters. Currently, conventional methods for …
timely realization of self-powered IoT sensor clusters. Currently, conventional methods for …
Rational modeling and design of piezoelectric biomolecular thin films toward enhanced energy harvesting and sensing
The dynamic electromechanical coupling behavior of composite materials is highly
dependent on external excitation frequency. While degradable biomolecular materials …
dependent on external excitation frequency. While degradable biomolecular materials …
Metasurface-enhanced multifunctional flag nanogenerator for efficient wind energy harvesting and environmental sensing
Wind energy, as a widely distributed and renewable energy resource, plays a crucial role in
promoting self-powered wireless sensor networks and wind speed sensing. However …
promoting self-powered wireless sensor networks and wind speed sensing. However …
Advanced Aerodynamics‐Driven Energy Harvesting Leveraging Gallo**‐Flutter Synergy
Flow‐induced vibrations (FIVs) serve as the fundamental principle of non‐rotary wind
energy harvesting. However, nanogenerators relying on a single FIV effect remain …
energy harvesting. However, nanogenerators relying on a single FIV effect remain …
Polymer-composite triboelectric nanogenerators with hook-shaped electrode for wind energy harvesting
Triboelectric nanogenerators (TENGs) based on the composite of polystyrene (PS) and
silver nanowires (Ag-nWs) have been investigated. With open-circuit voltage, short-circuit …
silver nanowires (Ag-nWs) have been investigated. With open-circuit voltage, short-circuit …
Vibration-adaptive energy management technology for self-sufficient wireless ECP braking systems on heavy-haul trains
L Dong, J Zuo - Mechanical Systems and Signal Processing, 2025 - Elsevier
To address insufficient power supply for wireless electronically controlled pneumatic (ECP)
braking systems on railway freight wagons, a self-sufficient system can be developed by …
braking systems on railway freight wagons, a self-sufficient system can be developed by …
Structural gallo** suppression with high-frequency flutter
Gallo** presents a significant challenge in engineering, often causing large-amplitude
vibrations in structures such as suspended electrical cables, bridges and towers, posing …
vibrations in structures such as suspended electrical cables, bridges and towers, posing …