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热声子工程与热管理的进展
Advances in thermal phonon engineering and thermal management
| 作者 | Masahiro Nomura · Sebastian Volz · Zhiting Tian |
| 期刊 | Applied Physics Letters |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 127 卷 第 6 期 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 可靠性分析 |
| 相关度评分 | ★★★★ 4.0 / 5.0 |
| 关键词 | 半导体热管理 碳中性 声子输运机制 声子工程 纳米尺度热测量 |
语言:
中文摘要
近年来,半导体和热电材料的热管理技术取得显著进展,成为实现碳中和的关键手段。现代电子与光电子器件需高效散热与热能转换以提升性能并保障可靠性与效率。随着器件尺寸缩小至纳米尺度,传统宏观热输运理论已不适用,亟需深入理解界面、纳米结构及异质系统中的声子输运机制。声子工程融合理论建模、纳米热测量、先进材料开发与材料信息学,推动了该领域的快速发展。
English Abstract
Recent years have seen major developments in thermal management approaches for semiconductors and thermoelectric materials, which serve as critical technologies for achieving carbon neutrality. Modern electronic and optoelectronic devices require effective heat dissipation and thermal energy conversion to achieve better performance and maintain reliability and efficiency. In particular, as device dimensions continue to shrink to the nanoscale, conventional bulk thermal transport theories become inadequate, necessitating a deeper understanding of phonon transport mechanisms at interfaces, in nanostructures, and across heterogeneous systems. The field of phonon engineering has emerged through the convergence of several scientific disciplines: Theoretical modeling of phonon heat transport together with nanoscale thermal measurement methods, advanced materials development, and materials informatics approaches have driven the development of phonon engineering. The combination of multiple sc
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SunView 深度解读
该热声子工程与热管理技术对阳光电源功率器件及储能系统具有重要应用价值。在ST系列储能变流器和PowerTitan大型储能系统中,SiC/GaN功率模块的纳米尺度热输运特性直接影响系统可靠性与效率。声子工程理论可优化功率模块界面热阻设计,提升三电平拓扑器件散热性能。在SG系列光伏逆变器的1500V高压系统中,纳米热测量技术可精准评估IGBT/MOSFET结温,支撑智能热管理策略。结合材料信息学方法,可加速导热材料筛选,为iSolarCloud平台的预测性维护提供热失效预警模型,延长储能与光伏设备全生命周期可靠性。