Printed Recyclable and Flexible Thermocouple Temperature Sensors DOI Creative Commons

Xiaotao Wang,

Lin Guo, Qihao Zhang

et al.

Advanced Sensor Research, Journal Year: 2025, Volume and Issue: unknown

Published: April 21, 2025

Abstract Temperature sensors play a pivotal role in modern electronics, finding use across broad spectrum of applications. Nonetheless, traditional manufacturing methods for these devices consume substantial energy and materials, their widespread utilization often contributes to electronic waste, presenting significant environmental concerns. In this research, recyclable printed thermocouple temperature are developed that emphasize both cost‐efficiency ecological responsibility. The utilize readily available fillers (i.e., nickel flakes carbon black powders), paving the way scalable production. By incorporating re‐dissolvable polymers as binders, end‐of‐life can be easily disassembled, eliminating need harsh treatment or hazardous chemicals. ferromagnetic enhances straightforward separation different filler components, streamlining recycling workflow. Importantly, gentle conditions preserve functional fillers, preventing degradation oxidation thus enabling reprocessed retain original performance. addition, boast high mechanical flexibility, making them suitable seamless integration into various practical scenarios. All innovations not only reduce economic costs but also align with goals sustainable development, demonstrating promising pathway future sensing technology.

Language: Английский

Printed Recyclable and Flexible Thermocouple Temperature Sensors DOI Creative Commons

Xiaotao Wang,

Lin Guo, Qihao Zhang

et al.

Advanced Sensor Research, Journal Year: 2025, Volume and Issue: unknown

Published: April 21, 2025

Abstract Temperature sensors play a pivotal role in modern electronics, finding use across broad spectrum of applications. Nonetheless, traditional manufacturing methods for these devices consume substantial energy and materials, their widespread utilization often contributes to electronic waste, presenting significant environmental concerns. In this research, recyclable printed thermocouple temperature are developed that emphasize both cost‐efficiency ecological responsibility. The utilize readily available fillers (i.e., nickel flakes carbon black powders), paving the way scalable production. By incorporating re‐dissolvable polymers as binders, end‐of‐life can be easily disassembled, eliminating need harsh treatment or hazardous chemicals. ferromagnetic enhances straightforward separation different filler components, streamlining recycling workflow. Importantly, gentle conditions preserve functional fillers, preventing degradation oxidation thus enabling reprocessed retain original performance. addition, boast high mechanical flexibility, making them suitable seamless integration into various practical scenarios. All innovations not only reduce economic costs but also align with goals sustainable development, demonstrating promising pathway future sensing technology.

Language: Английский

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