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Rudai Zhao et al.
Summary: Perovskites, as promising photovoltaic materials, have been widely studied and applied in various fields. The development of wearable perovskite optoelectronic devices has rapidly progressed in recent years, showcasing advantages like flexibility, stretchability, and lightweight properties. The field faces challenges such as stability, safety, and large-scale production.
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Chemistry, Physical
Min Wu et al.
Summary: This study presents a simple approach to prepare a transparent, self-healing, and highly conductive organohydrogel. Based on this material, a stretchable freezing-tolerant triboelectric nanogenerator and strain sensor were developed. These devices demonstrate excellent mechanical and electrical properties, making them suitable for potential applications in wearable electronics, healthcare monitoring, biomechanical energy harvesting, and human-machine interaction.
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Guanjun Zhu et al.
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Xiang Shi et al.
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Lin Shi et al.
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Summary: The lightweight and flexible self-charging power systems utilizing TENG technology have great potential in providing stable and sustainable power sources for wearable electronics. The recent advancements in self-charging power textiles, combining TENGs with batteries/supercapacitors, are discussed, along with the key challenges and future prospects in the field.
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Kai Dong et al.
Summary: Textile triboelectric nanogenerator (TENG) is an intelligent textile technology that integrates traditional textile materials with advanced science, providing autonomous energy harvesting and active self-powered sensing while maintaining wearability. In the next decade, textile TENGs are expected to make significant advances in the field of human-oriented on-body electronics and artificial intelligence.
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Junlu Sun et al.
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Feixiang Ma et al.
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