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Advancing flexible thermoelectrics for integrated electronics
Chemical Society Reviews ( IF 40.4 ) Pub Date : 2024-08-15 , DOI: 10.1039/d4cs00361f Xiao-Lei Shi 1 , Lijun Wang 1 , Wanyu Lyu 1 , Tianyi Cao 1 , Wenyi Chen 1 , Boxuan Hu 1 , Zhi-Gang Chen 1
Chemical Society Reviews ( IF 40.4 ) Pub Date : 2024-08-15 , DOI: 10.1039/d4cs00361f Xiao-Lei Shi 1 , Lijun Wang 1 , Wanyu Lyu 1 , Tianyi Cao 1 , Wenyi Chen 1 , Boxuan Hu 1 , Zhi-Gang Chen 1
Affiliation
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With the increasing demand for energy and the climate challenges caused by the consumption of traditional fuels, there is an urgent need to accelerate the adoption of green and sustainable energy conversion and storage technologies. The integration of flexible thermoelectrics with other various energy conversion technologies plays a crucial role, enabling the conversion of multiple forms of energy such as temperature differentials, solar energy, mechanical force, and humidity into electricity. The development of these technologies lays the foundation for sustainable power solutions and promotes research progress in energy conversion. Given the complexity and rapid development of this field, this review provides a detailed overview of the progress of multifunctional integrated energy conversion and storage technologies based on thermoelectric conversion. The focus is on improving material performance, optimizing the design of integrated device structures, and achieving device flexibility to expand their application scenarios, particularly the integration and multi-functionalization of wearable energy conversion technologies. Additionally, we discuss the current development bottlenecks and future directions to facilitate the continuous advancement of this field.
中文翻译:
推进集成电子器件的柔性热电材料
随着能源需求的不断增加以及传统燃料消耗带来的气候挑战,迫切需要加速采用绿色和可持续的能源转换和存储技术。柔性热电与其他各种能量转换技术的集成发挥着至关重要的作用,可以将温差、太阳能、机械力和湿度等多种形式的能量转换为电能。这些技术的发展为可持续电力解决方案奠定了基础,并推动了能源转换方面的研究进展。鉴于该领域的复杂性和快速发展,本文详细概述了基于热电转换的多功能集成能量转换和存储技术的进展。重点是提高材料性能,优化集成器件结构设计,实现器件灵活性以扩展其应用场景,特别是可穿戴能量转换技术的集成和多功能化。此外,我们还讨论了当前的发展瓶颈和未来的方向,以促进该领域的不断进步。
更新日期:2024-08-16
中文翻译:
推进集成电子器件的柔性热电材料
随着能源需求的不断增加以及传统燃料消耗带来的气候挑战,迫切需要加速采用绿色和可持续的能源转换和存储技术。柔性热电与其他各种能量转换技术的集成发挥着至关重要的作用,可以将温差、太阳能、机械力和湿度等多种形式的能量转换为电能。这些技术的发展为可持续电力解决方案奠定了基础,并推动了能源转换方面的研究进展。鉴于该领域的复杂性和快速发展,本文详细概述了基于热电转换的多功能集成能量转换和存储技术的进展。重点是提高材料性能,优化集成器件结构设计,实现器件灵活性以扩展其应用场景,特别是可穿戴能量转换技术的集成和多功能化。此外,我们还讨论了当前的发展瓶颈和未来的方向,以促进该领域的不断进步。
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