Shengshun Duan, Pinzhen Chen, Yu‐An Xiong, Fangzhi Zhao et al.
Hybrid organic-inorganic molecular ferroelectrics have emerged as promising materials for multifunctional piezoelectric devices. However, they present challenges in practical applications because of their inherent brittleness and poor ductility. Herein, we present a flexible mechano-optical dual-res...
Shengshun Duan, Xiao Wei, Mingcen Weng, Fangzhi Zhao et al.
Abstract The rapid and responsive capabilities of soft robots in perceiving, assessing, and reacting to environmental stimuli are highly valuable. However, many existing soft robots, designed to mimic humans and other higher animals, often rely on data centers for the modulation of mechanoelectrical...
Jianlong Hong, Xiao Wei, Huiyun Zhang, Yukun Xiao et al.
Abstract Benefiting from the widespread potential applications in the era of the Internet of Thing and metaverse, triboelectric and piezoelectric nanogenerators (TENG & PENG) have attracted considerably increasing attention. Their outstanding characteristics, such as self-powered ability, high o...
Shengxin Xiang, Wei Xiao, Lei Liu, Jianlong Hong et al.
Jianlong Hong, Yukun Xiao, Yuqi Chen, Shengshun Duan et al.
The metaverse progressively demands heightened sophistication in human-multi-machine collaboration, accelerating development of hybrid immersive 2D tactile and 3D spatial perception interfaces. However, current interfaces struggle with the precision and adaptability in complex human-multi-machine in...
Jianlong Hong, Zhoulyu Rao, Shengshun Duan, Shengxin Xiang et al.
Jianlong Hong, Yukun Xiao, Yuqi Chen, Shengshun Duan et al.
The absence of tactile emotion perception limits artificial intelligence (AI) in decoding social behaviors encoded in human physical contact. Here, a biomimetic hairy sensing interface is developed to capture affective touch’s spatiotemporal characteristics and intrinsic features, allowing for accur...
Lei Liu, Shengxin Xiang, Qiongfeng Shi, Shengshun Duan et al.
Molecular ferroelectrics—hybrid organic-inorganic architectures that exhibit piezoelectric coefficients comparable to classic oxide ceramics while offering rich compositional and structural tunability—have emerged as promising materials for human-interfaced high-frequency acoustic sensing. Neverthel...