Liquid-infused nanostructured composite as a high-performance thermal interface material for effective cooling

Liquid-infused nanostructured composite as a high-performance thermal interface material for effective cooling

Abstract Effective heat dissipation remains a grand challenge for energy-dense devices and systems. As heterogeneous integration becomes increasingly inevitable in electronics, thermal resistance at interfaces has emerged as a critical bottleneck for thermal management. However, existing thermal int...

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Main Authors: Rui Cheng, Qixian Wang, Zexiao Wang, Lin Jing, Ana V. Garcia-Caraveo, Zhuo Li, Yibai Zhong, Xiu Liu, Xiao Luo, Tianyi Huang, Hyeong Seok Yun, Hakan Salihoglu, Loren Russell, Navid Kazem, Tianyi Chen, Sheng Shen
Format: Article
Language:English
Published: Nature Portfolio 2025-01-01
Series:Nature Communications
Online Access:https://doi.org/10.1038/s41467-025-56163-8
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Summary:Abstract Effective heat dissipation remains a grand challenge for energy-dense devices and systems. As heterogeneous integration becomes increasingly inevitable in electronics, thermal resistance at interfaces has emerged as a critical bottleneck for thermal management. However, existing thermal interface solutions are constrained by either high thermal resistance or poor reliability. We report a strategy to create printable, high-performance liquid-infused nanostructured composites, comprising a mechanically soft and thermally conductive double-sided Cu nanowire array scaffold infused with a customized thermal-bridge liquid that suppresses contact thermal resistance. The liquid infusion concept is versatile for a broad range of thermal interface applications. Remarkably, the liquid metal infused nanostructured composite exhibits an ultra-low thermal resistance <1 mm² K W-1 at interface, outperforming state-of-the-art thermal interface materials on chip-cooling. The high reliability of the nanostructured composites enables undegraded performance through extreme temperature cycling. We envision liquid-infused nanostructured composites as a universal thermal interface solution for cooling applications in data centers, GPU/CPU systems, solid-state lasers, and LEDs.
ISSN:2041-1723

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