Shuaishuai Yu scite author profile

Shuaishuai Yu

4Publications

37Citation Statements Received

121Citation Statements Given

How they've been cited

How they cite others

156

119

Affiliations

Baoji University of Arts and Sciences, University of Shanghai for Science and Technology

Publications

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Recoverable Dual-Modal Responsive Sensing Materials Based on Mechanoluminescence and Thermally Stimulated Luminescence toward Noncontact Tactile Sensors

Zhao

et al. 2023

Inorg. Chem.

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Tactile sensing with stress and temperature sensing as core elements have shown promising prospects in intelligent robots and the human–machine interface. Mechanoluminescence (ML)-based stress sensing can realize the direct sensing of mechanical stimulation, whereas indirect temperature sensing based on luminescent sensing materials usually requires the stimulation of extra light or force. Herein, a trap-controlled material Sr2MgAl22O36:Mn2+ with bifunctional mechano/thermal sensing applications was developed and investigated in detail. Visualized bright green-emitting ML and thermally stimulated luminescence (TSL) directly and rapidly responded to mechano/thermal dual stimulation in the Sr2MgAl22O36:Mn2+/PDMS composite film. It is worth mentioning that this study proposed a new idea of direct temperature sensing by the initial intensity of TSL due to thermal–photo energy conversion, unlike previous temperature sensor technology. Based on this, we designed a flexible optical skin with a simple structure and verified its application prospect as a tactile sensing material with dual mechano/thermal response, establishing a unique imaging mode and providing a convenient, reliable, and sensitive way to remotely visualize the distribution of stress and temperature. This study paves a new way for the development of optical skins with simple structures and sensitive visibility in the application of intelligent robot tactile sensing.

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Ultra-bright green-emitting phosphors with an internal quantum efficiency of over 90% for high-quality WLEDs

Yin

Wang

et al. 2021

Dalton Trans.

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Design and tuning Cr³⁺-doped near-infrared phosphors for multifunctional applications via crystal field engineering

Wei

et al. 2022

Dalton Trans.

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Enhancement of the NIR Emission of Cr³⁺–Yb³⁺ Co-doped La₃GaGe₅O₁₆ Phosphors by Doping Nd³⁺ Ions via Efficient Energy Transfer for NIR Spectroscopy Regulation

Fan

et al. 2022

Inorg. Chem.

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Shuaishuai Yu

Recoverable Dual-Modal Responsive Sensing Materials Based on Mechanoluminescence and Thermally Stimulated Luminescence toward Noncontact Tactile Sensors

Ultra-bright green-emitting phosphors with an internal quantum efficiency of over 90% for high-quality WLEDs

Design and tuning Cr³⁺-doped near-infrared phosphors for multifunctional applications via crystal field engineering

Enhancement of the NIR Emission of Cr³⁺–Yb³⁺ Co-doped La₃GaGe₅O₁₆ Phosphors by Doping Nd³⁺ Ions via Efficient Energy Transfer for NIR Spectroscopy Regulation

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Shuaishuai Yu

Recoverable Dual-Modal Responsive Sensing Materials Based on Mechanoluminescence and Thermally Stimulated Luminescence toward Noncontact Tactile Sensors

Ultra-bright green-emitting phosphors with an internal quantum efficiency of over 90% for high-quality WLEDs

Design and tuning Cr3+-doped near-infrared phosphors for multifunctional applications via crystal field engineering

Enhancement of the NIR Emission of Cr3+–Yb3+ Co-doped La3GaGe5O16 Phosphors by Doping Nd3+ Ions via Efficient Energy Transfer for NIR Spectroscopy Regulation

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Product

Resources

About

Design and tuning Cr³⁺-doped near-infrared phosphors for multifunctional applications via crystal field engineering

Enhancement of the NIR Emission of Cr³⁺–Yb³⁺ Co-doped La₃GaGe₅O₁₆ Phosphors by Doping Nd³⁺ Ions via Efficient Energy Transfer for NIR Spectroscopy Regulation