Fiber/fabric‐based piezoelectric and triboelectric nanogenerators for flexible/stretchable and wearable electronics and artificial intelligence
Integration of advanced nanogenerator technology with conventional textile processes
fosters the emergence of textile‐based nanogenerators (NGs), which will inevitably promote …
fosters the emergence of textile‐based nanogenerators (NGs), which will inevitably promote …
Hybrid nanogenerators for ocean energy harvesting: mechanisms, designs, and applications
The ocean holds vast potential as a renewable energy source, but harnessing its power has
been challenging due to low‐frequency and high‐amplitude stimulation. However, hybrid …
been challenging due to low‐frequency and high‐amplitude stimulation. However, hybrid …
Recent advances in 1D stretchable electrodes and devices for textile and wearable electronics: materials, fabrications, and applications
Research on wearable electronic devices that can be directly integrated into daily textiles or
clothes has been explosively grown holding great potential for various practical wearable …
clothes has been explosively grown holding great potential for various practical wearable …
Recent progress of wearable piezoelectric pressure sensors based on nanofibers, yarns, and their fabrics via electrospinning
Highly sensitive flexible pressure sensors are extensively investigated for various
applications, such as electronic skin, human physiological monitoring, and artificial …
applications, such as electronic skin, human physiological monitoring, and artificial …
[HTML][HTML] Application of nanogenerators in acoustics based on artificial intelligence and machine learning
X Yu, T Ai, K Wang - APL Materials, 2024 - pubs.aip.org
As artificial intelligence (AI) advances, it is critical to give conventional electronics the
capacity to “think,”“analyze,” and “advise.” The need for intelligent, self-powered devices has …
capacity to “think,”“analyze,” and “advise.” The need for intelligent, self-powered devices has …
Smart data processing for energy harvesting systems using artificial intelligence
Recent substantial advancements in computational techniques, particularly in artificial
intelligence (AI) and machine learning (ML), have raised the demand for smart self-powered …
intelligence (AI) and machine learning (ML), have raised the demand for smart self-powered …
Advanced energetic materials: novel strategies and versatile applications
SG Zlotin, AM Churakov, MP Egorov, LL Fershtat… - Mendeleev …, 2021 - Elsevier
Novel efficient synthetic strategies, including green methodologies, to basic and perspective
high-energy density compounds, bearing active oxygen sources (C-, N-and O-nitro groups …
high-energy density compounds, bearing active oxygen sources (C-, N-and O-nitro groups …
(K, Na)NbO3‐Based Lead‐Free Piezoceramics: Fundamental Aspects, Processing Technologies, and Remaining Challenges
Environment‐friendly lead‐free piezoelectric ceramics have been studied extensively in the
past decade with great progress particularly in systems based on a niobate perovskite …
past decade with great progress particularly in systems based on a niobate perovskite …
Sustainable natural bio‐origin materials for future flexible devices
Flexible devices serve as important intelligent interfaces in various applications involving
health monitoring, biomedical therapies, and human–machine interfacing. To address the …
health monitoring, biomedical therapies, and human–machine interfacing. To address the …
Crystalline Porous Material‐Based Nanogenerators: Recent Progress, Applications, Challenges, and Opportunities
Nanogenerator (NG) is a potential technology that allows to build self‐powered systems,
sensors, flexible and portable electronics in the current Internet of Things (IoT) generation …
sensors, flexible and portable electronics in the current Internet of Things (IoT) generation …