Oriented Bi2Te3-based films enabled high performance planar thermoelectric cooling device for hot spot elimination

IF 3.784 3区 化学 Q1 Chemistry
Guoying Dong, Jianghe Feng, Guojuan Qiu, Yuxuan Yang, Qiyong Chen, Yang Xiong, Haijun Wu, Yifeng Ling, Lili Xi, Chen Long, Jibao Lu, Yixin Qiao, Guijuan Li, Juan Li, Ruiheng Liu, Rong Sun
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Abstract

Film-thermoelectric cooling devices are expected to provide a promising active thermal management solution with the continues increase of the power density of integrated circuit chips and other electronic devices. However, because the microstructure-related performance of thermoelectric films has not been perfectly matched with the device configuration, the potential of planar devices on chip heat dissipation has still not been fully exploited. Here, by liquid Te assistant growth method, highly (00 l) orientated Bi2Te3-based films which is comparable to single crystals are obtained in polycrystal films in this work. The high mobility stem from high orientation and low lattice thermal conductivity resulting from excess Te induced staggered stacking faults leads to high in-plane zT values ~1.53 and ~1.10 for P-type Bi0.4Sb1.6Te3 and N-type Bi2Te3 films, respectively. The planar devices basing on the geometrically designed high orientation films produce a remarkable temperature reduction of ~8.2 K in the hot spot elimination experiment, demonstrating the great benefit of Te assistant growth method for oriented planar Bi2Te3 films and planar devices devices design, and also bring great enlightenment to the next generation active thermal management for integrated circuits.

Abstract Image

基于定向 Bi2Te3 薄膜的用于消除热点的高性能平面热电冷却装置
随着集成电路芯片和其他电子设备功率密度的不断提高,薄膜热电冷却装置有望提供一种前景广阔的主动热管理解决方案。然而,由于热电薄膜的微观结构相关性能尚未与器件配置完美匹配,平面器件在芯片散热方面的潜力仍未得到充分挖掘。本研究采用液态 Te 辅助生长方法,在多晶薄膜中获得了与单晶相媲美的高(00 l)取向 Bi2Te3 基薄膜。高取向产生的高迁移率和过量 Te 引发的交错堆叠断层所产生的低晶格热导率,使 P 型 Bi0.4Sb1.6Te3 和 N 型 Bi2Te3 薄膜的面内 zT 值分别高达 ~1.53 和 ~1.10。基于几何设计的高取向薄膜的平面器件在热点消除实验中产生了 ~8.2 K 的显著降温,证明了 Te 辅助生长方法在取向平面 Bi2Te3 薄膜和平面器件设计中的巨大优势,也为下一代集成电路的主动热管理带来了巨大启示。
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来源期刊
ACS Combinatorial Science
ACS Combinatorial Science CHEMISTRY, APPLIED-CHEMISTRY, MEDICINAL
自引率
0.00%
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0
审稿时长
1 months
期刊介绍: The Journal of Combinatorial Chemistry has been relaunched as ACS Combinatorial Science under the leadership of new Editor-in-Chief M.G. Finn of The Scripps Research Institute. The journal features an expanded scope and will build upon the legacy of the Journal of Combinatorial Chemistry, a highly cited leader in the field.
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