Mxenes as a versatile nanoplatform: Synthesis and emerging biomedical applications

Journal of Industrial and Engineering Chemistry, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 1, 2025

Language: Английский

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Motion‐Interference Free and Self‐Compensated Multi‐Receptor Skin with all Gel for Sensory Enhancement

Advanced Functional Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 5, 2025

Abstract Stretchable multimodal electronic skin (e‐skin) has attracted intensive research interest but faces great challenges related to strain interference, crosstalk issues, and integration of multiple sensitive materials. Herein, a stretchable strain‐isolated (SSIM) e‐skin capable concurrently sensitively monitoring temperature, humidity, UV light, oxygen, while also possessing self‐compensation capability is developed. The SSIM sensing platform created by chemically anchoring polyethylene terephthalate onto polydimethylsiloxane through silane treatment form island‐bridge structures. This method effectively isolates improves interfacial adhesion, achieving state‐of‐the‐art low interference 0.2% an adhesion energy exceeding 300 J m − 2 (13.4 times that the untreated material), ensuring e‐skin's stable operation even under dynamic stretching. To mitigate fabrication complexity, single hydrogel film employed facilitate self‐compensating various mechanisms physical isolations. can simultaneously monitor several environmental physiological signals with minimized without from body movements. It enables remote respiration wireless circuitry, highlighting its substantial potential in health monitoring, medical diagnostics, neurorehabilitation.

Language: Английский

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Stretchable Mechano‐Electro‐Optical Coupling Devices

Advanced Functional Materials, Journal Year: 2025, Volume and Issue: unknown

Published: May 20, 2025

Abstract Flexible multi‐signal coupling devices are essential for intelligent sensing and information processing. However, the development of stretchable remains challenging. Herein, a sandwich‐structured, mechano‐electro‐optical (MEOC) device is introduced that outputs both electrical optical signals during mechanical stretching. A nanometer‐thick gold film deposited on sides electroluminescent layer, facilitating reversible formation microcrack networks These exhibit strain‐dependent changes in resistance transmittance, which modulate device's outputs. The MEOC achieves an ultralow strain detection threshold 0.05% high stretchability up to 80%. Two variations with thickness‐patterned electrodes designed demonstrated dynamic encryption decryption. As proof concept, used joint‐based health management, showcasing its potential display applications. This holds significant promise displays interactive devices.

Language: Английский

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Recent advances in printed devices for next-generation sensing

Published: May 23, 2025

Recent advances in scalable, high-throughput, and cost-effective printing methods have enabled the rapid development of printed sensors for a broad range emerging applications. This article reviews recent developments sensors, emphasizing innovative fabrication techniques such as extrusion printing, screen inkjet aerosol jet printing. These enable production with intricate designs, high spatial resolution, exceptional mechanical flexibility, surpassing capabilities traditional manufacturing processes. Printed measurement diverse physical parameters temperature, pressure, strain, chemical or biological signals structural health, human environmental monitoring. Notably, thermoelectric-based offer energy-efficient solutions temperature heat flux monitoring, while thermoelectric generators self-powered sensing systems by harnessing waste heat, body ambient thermal gradients. review also addresses critical challenges improving sensor sensitivity, durability offering trends perspectives on advancing high-performance solutions.

Language: Английский

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