机械容积
荧光粉
材料科学
激发态
光电子学
聚二甲基硅氧烷
压电
纳米技术
财产(哲学)
电子材料
计算机科学
能量收集
工程物理
可穿戴计算机
工艺工程
作者
Jianwen Zhang,Jianwen Zhang,Weiguang Wang,Weiguang Wang,Jinyu Zhou,Jie Zhang,Jie Zhang,Wenxiang Wang,Wenxiang Wang,Shanwen Wang,J R Liu,Hui Li,Xianfeng Jin,Chi Zhang,Ziyuan Li,Zhaofeng Wang,Yuhua Wang
摘要
ABSTRACT Self‐recoverable mechanoluminescence (ML) is a unique property of materials that can stably emit light under repeated stress, enabling new applications in smart sensing, displays, and wearable devices. However, self‐recoverable ML is very rare and only observed in a few active phosphors excited by piezoelectricity or contact electrification. Herein, we present an assisting contact electrification strategy that can enable inactive phosphors inherently lacking ML to achieve self‐recoverable ML. A typical illustration demonstrates that commercially available LaPO 4 : Tb 3+ , Ce 3+ phosphor lacks piezoelectrically excited ML. No ML of Tb 3+ is excited in polydimethylsiloxane (PDMS), apart from the ML of LaPO 4 host. Accordingly, we introduce strongly electrifiable fluoride into PDMS to induce contact electrification, thereby successfully assisting in the excitation of self‐recoverable ML of Tb 3+ from the inactive LaPO 4 : Tb 3+ , Ce 3+ . This case illustrates that, based on the assisting contact electrification strategy, the originally rare self‐recoverable ML may become a universal property of all phosphors.
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