Elasto‐Optic Effect of Lanthanum‐Modified Lead Zirconate–Lead Titanate Transparent Ceramics: Application in Optical‐Stress Sensors

Ming, Xinhua; Liu, Feng; Chen, Yong; Chen, Ming; Zhang, Yan; Liu, Bin; Wang, Xujing; Sun, Zhengguang; Pan, Ruikun; Zheng, Keyu; Dai, Ying; Deng, Zhao; He, Xiyun; Cao, W.W; Wang, Shimin; Wang, Longhai

doi:10.1002/adom.202201239

Cited by 5 publications

(1 citation statement)

References 46 publications

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“…In recent years, a strong interest has been also devoted to enlarge transparent ceramics family and to develop new optical ceramics [28,29]. In particular, spinel transparent ceramics have received much attention from academia and industry sectors and widespread concern from researchers in many different fields because of their unique and interesting properties.…”

Section: Introductionmentioning

confidence: 99%

Fabrication and optical properties of transparent fine-grained Zn1.1Ga1.8Ge0.1O4 and Ni2+ (or Cr3+)-doped Zn1.1Ga1.8Ge0.1O4 spinel ceramics

Carreaud¹,

Duclère²,

Launay³

et al. 2023

Journal of the European Ceramic Society

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Section: Introductionmentioning

confidence: 99%

Fabrication and optical properties of transparent fine-grained Zn1.1Ga1.8Ge0.1O4 and Ni2+ (or Cr3+)-doped Zn1.1Ga1.8Ge0.1O4 spinel ceramics

Carreaud¹,

Duclère²,

Launay³

et al. 2023

Journal of the European Ceramic Society

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Microstrain‐Stimulated Elastico‐Mechanoluminescence with Dual‐Mode Stress Sensing

Yang,

Wei,

et al. 2024

Advanced Materials

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Elastico‐mechanoluminescence technology has shown significant application prospects in stress sensing, artificial skin, remote interaction, and other research areas. Its progress mainly lies in realizing stress visualization and two‐dimensional or even three‐dimensional stress‐sensing effects using a passive sensing mode. However, the widespread promotion of mechanoluminescence (ML) technology has been hindered by issues such as high stress or strain thresholds and a single sensing mode based on luminous intensity. In this study, a highly efficient green‐emitting ML with dual mode stress‐sensing characteristics driven by micro‐scale strain was developed using LiTaO3:Tb3+. In addition to single‐mode sensing based on the luminous intensity, the self‐defined parameter (Q) was also introduced as a dual‐mode factor for sensing the stress velocity. Impressively, the fabricated LiTaO3:Tb3+ film is capable of generating discernible ML signals even when supplied with strains as low as 500 μst. This is the current the minimum strain value that can drive green‐emitting ML. Our study offers an ideal photonic platform for exploring the potential applications of rare‐earth‐doped elastico‐ML materials in remote interaction devices, high‐precision stress sensors, and single‐molecule biological imaging.This article is protected by copyright. All rights reserved

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Continuous control of polarization state and tunable dual-channel optical communication based on highly transparent PMN-PT electro-optic ceramics

Tian

Fang

Zheng

et al. 2023

Ceramics International

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Elasto‐Optic Effect of Lanthanum‐Modified Lead Zirconate–Lead Titanate Transparent Ceramics: Application in Optical‐Stress Sensors

Cited by 5 publications

References 46 publications

Fabrication and optical properties of transparent fine-grained Zn1.1Ga1.8Ge0.1O4 and Ni2+ (or Cr3+)-doped Zn1.1Ga1.8Ge0.1O4 spinel ceramics

Fabrication and optical properties of transparent fine-grained Zn1.1Ga1.8Ge0.1O4 and Ni2+ (or Cr3+)-doped Zn1.1Ga1.8Ge0.1O4 spinel ceramics

Microstrain‐Stimulated Elastico‐Mechanoluminescence with Dual‐Mode Stress Sensing

Continuous control of polarization state and tunable dual-channel optical communication based on highly transparent PMN-PT electro-optic ceramics

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