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Recent Advances in the Construction of Flexible Sensors for Biomedical Applications.
Biotechnology Journal ( IF 3.2 ) Pub Date : 2020-08-03 , DOI: 10.1002/biot.202000094 Nan Zhou 1 , Tianjiao Liu 1 , Bianying Wen 2 , Coucong Gong 3 , Gang Wei 3, 4 , Zhiqiang Su 1
Biotechnology Journal ( IF 3.2 ) Pub Date : 2020-08-03 , DOI: 10.1002/biot.202000094 Nan Zhou 1 , Tianjiao Liu 1 , Bianying Wen 2 , Coucong Gong 3 , Gang Wei 3, 4 , Zhiqiang Su 1
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The fabrication of flexible sensors is a potential way to promote the progress of modern social science and technology due to their wide applications in high‐performance electronic equipment and devices. Flexible sensors based on organic materials combine the unique advantages of flexibility and low cost, increasing interest in healthcare monitoring, treatment, and human–machine interfaces. Advances in materials science and biotechnology have rapidly accelerated the development of bio‐integrated multifunctional sensors and devices. Due to their excellent mechanical and electrical properties, many types of functional materials provided benefits for the construction of various sensors with improved flexibility and stretchability. In this review, recent advance in the fabrication of flexible sensors by using functional nanomaterials including nanoparticles, carbon materials, metal‐organic materials, and polymers is presented. In addition, the potential biomedical applications of the fabricated flexible sensors for detecting gas molecules signals, small molecules, DNA/RNA, proteins, others are introduced and discussed.
中文翻译:
用于生物医学应用的柔性传感器的最新进展。
由于柔性传感器在高性能电子设备中的广泛应用,柔性传感器的制造是促进现代社会科学和技术进步的潜在途径。基于有机材料的柔性传感器结合了灵活性和低成本的独特优势,对医疗保健监控,治疗和人机界面的兴趣日益浓厚。材料科学和生物技术的进步迅速促进了生物集成多功能传感器和设备的发展。由于其出色的机械和电气性能,许多类型的功能材料为具有改进的柔韧性和可拉伸性的各种传感器的构造提供了好处。在这篇评论中 介绍了通过使用功能性纳米材料(包括纳米粒子,碳材料,金属有机材料和聚合物)制造柔性传感器的最新进展。另外,介绍并讨论了所制造的用于检测气体分子信号,小分子,DNA / RNA,蛋白质等的柔性传感器的潜在生物医学应用。
更新日期:2020-08-03
中文翻译:
用于生物医学应用的柔性传感器的最新进展。
由于柔性传感器在高性能电子设备中的广泛应用,柔性传感器的制造是促进现代社会科学和技术进步的潜在途径。基于有机材料的柔性传感器结合了灵活性和低成本的独特优势,对医疗保健监控,治疗和人机界面的兴趣日益浓厚。材料科学和生物技术的进步迅速促进了生物集成多功能传感器和设备的发展。由于其出色的机械和电气性能,许多类型的功能材料为具有改进的柔韧性和可拉伸性的各种传感器的构造提供了好处。在这篇评论中 介绍了通过使用功能性纳米材料(包括纳米粒子,碳材料,金属有机材料和聚合物)制造柔性传感器的最新进展。另外,介绍并讨论了所制造的用于检测气体分子信号,小分子,DNA / RNA,蛋白质等的柔性传感器的潜在生物医学应用。
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