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电动汽车驱动
★ 5.0
通过Hf取代提升p型半赫斯勒TiNi0.8Co0.2Sn的热电性能
Enhanced thermoelectric performance by Hf substitution in p-type half-Heusler TiNi0.8Co0.2Sn
| 作者 | Masashi Mikami · Hidetoshi Miyazaki · Yoichi Nishino · Nagoya Industrial Science Research Institute |
| 期刊 | Applied Physics Letters |
| 出版日期 | 2025年1月 |
| 卷/期 | 第 126 卷 第 13 期 |
| 技术分类 | 电动汽车驱动 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 半赫斯勒合金 TiNiSn 热电性能 Hf替代 Seebeck系数 |
语言:
中文摘要
半赫斯勒合金TiNiSn因其在500至1000 K宽温区内优异的热电性能,被视为有前景的热电发电材料。然而,其p型材料的性能远低于n型。本文发现,在TiNiSn-HfNiSn二元体系的混溶间隙区域内,Hf取代可显著提升p型TiNi0.8Co0.2Sn的热电性能。在650 K时,Ti0.5Hf0.5Ni0.8Co0.2Sn的Seebeck系数由原始样品的不足80 μV/K大幅提升至170 μV/K,归因于Hf引入引起的电子能带结构调制。同时,晶格畸变和点缺陷有效降低了晶格热导率,从5.0 W/mK降至3.3 W/mK,从而显著提升热电优值。
English Abstract
The half-Heusler TiNiSn alloy is a promising candidate for thermoelectric power generation, capable of directly converting waste heat into electric power, due to its high thermoelectric performance over a wide temperature range from 500 to 1000 K. However, the thermoelectric performance of p-type TiNiSn is much lower than that of its n-type counterpart. Here, we demonstrate that Hf substitution in the p-type half-Heusler TiNi0.8Co0.2Sn alloy significantly enhances thermoelectric performance within the miscibility gap region of the binary TiNiSn-HfNiSn phase diagram. The Seebeck coefficient, which is below 80 _μ_ V/K for TiNi0.8Co0.2Sn, is substantially improved to 170 _μ_ V/K in Ti0.5Hf0.5Ni0.8Co0.2Sn at 650 K, owing to modifications in the electronic band structure induced by Hf substitution. Moreover, the lattice distortion and point defects introduced by Hf substitution effectively reduce thermal conductivity, from 5.0 W/mK for TiNi0.8Co0.2Sn to 3.3 W/mK for Ti0.5Hf0.5Ni0.8Co0.2Sn a
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SunView 深度解读
该p型半赫斯勒热电材料技术对阳光电源功率器件热管理具有重要应用价值。在SiC/GaN功率模块和电机驱动系统中,高效热电发电材料可将器件废热转化为电能,提升系统整体效率。研究中通过Hf取代实现的Seebeck系数翻倍提升(80→170 μV/K)和热导率降低(5.0→3.3 W/mK),为ST储能变流器和车载OBC充电机的功率模块散热设计提供新思路。特别是在500-1000K宽温区的稳定性能,适配电动汽车驱动系统和充电桩大功率器件的工作温度范围,可通过热电转换实现被动散热与能量回收的双重优化,降低冷却系统功耗,提升PowerTitan等大型储能系统的能量密度和可靠性。