Next‐Generation Chemiresistive Wearable Breath Sensors for Non‐Invasive Healthcare Monitoring: Advances in Composite and Hybrid Materials

Small, Journal Year: 2025, Volume and Issue: unknown

Published: Feb. 19, 2025

Abstract Recently wearable breath sensors have received significant attention in personalized healthcare systems by offering new methods for remote, non‐invasive, and continuous monitoring of various health indicators from samples without disrupting daily routines. The rising demand rapid, diagnostics has sparked concerns over electronic waste short‐lived silicon‐based devices. To address this issue, the development flexible sensing applications is a promising approach. Research highlights different flexible, operating with principles, such as chemiresistive to detect specific target analytes due their simple design, high sensitivity, selectivity, reliability. Further, focusing on non‐invasive detection biomarkers through exhaled breath, offer comprehensive environmentally friendly solution. This article presents discussion recent advancement biomarkers. further emphasizes intricate functioning sensor, including selection criteria both substrate advanced functional materials, mechanisms. review then explores potential gas disease detection, modern challenges associated sensors.

Language: Английский

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Textile electronics for ubiquitous health monitoring

Soft Science, Journal Year: 2024, Volume and Issue: 4(4)

Published: Nov. 28, 2024

The emergence of wearable electronics, along with an increased emphasis on personal health, has catalyzed a transformation in conventional health monitoring methods. Textile electronics are attracting significant attention due to their good flexibility, breathability, biocompatibility, portability and wearability, positioning them as promising platform for human monitoring. Consequently, substantial efforts being dedicated developing multifunctional, integrated, reliable systems based textile electronics. This review summarizes recent advancements focusing materials, preparation techniques functional fibers fabrics, design strategies textile-based systems, applications ubiquitous Additionally, some emerging integration presented. Moreover, the challenges future outlook potential solutions discussed.

Language: Английский

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Advances in Ti₃C₂T_X MXene‐Integrated Conductive Textiles for Wearable Biomedical Sensors in Health Monitoring

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

Published: May 30, 2025

Abstract The discovery of MXenes has yielded several innovative approaches to manufacturing conductive materials for improved performance in sectors. Among the various types MXenes, titanium carbide MXene (Ti 3 C 2 T X ) is widely applied advanced material design due its desirable characteristics. Integrating Ti with textiles promises create a new generation textile enhanced properties application devices, including wearable biomedical sensors. It been observed that as base health sector not received significant attention, hence, there need critical review allow greater insights into prospects using this 2D industry toward smart healthcare delivery. This conducted fill gap by delving sensor design. Findings show are promising advancing electronics, especially Future studies explore integration MXenes‐based biosensors Internet Things, and methodologies harmless environment human health, recommended ensure seamless delivery sensors sustainable manufacturing.

Language: Английский

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Exploring Sustainable Approaches for Electronic Textile Products and Prototypes

Sensors, Journal Year: 2024, Volume and Issue: 24(17), P. 5472 - 5472

Published: Aug. 23, 2024

This research investigated the sustainability of textile garments with integrated electronics and their potential impact on environment. The electronic textiles (E-textiles) sector is booming, many advancements in E-textile product designs construction methods having been made recent years. Although there a rapidly increasing interest reusability textiles, work towards requires further attention. Vastly different components are combined when constructing an product, which makes it challenging at end life these products to dispose them responsible way. In this study, teardown analysis was conducted using structured method, first mapped out interactions between each component environment, followed by Kuusk's sustainable framework analyze strategies. provides unique contribution transitioning theories into practical applications area E-textiles, method proposed can be employed modifying electronics-embedded improve longevity reduce negative environmental impact. has highlighted key points improvement that could applied series commercial garments, as well prototype device. Beyond this, systematic approach for implementing new evaluate overall from design stage material selection, construction, planning approaches product.

Language: Английский

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