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W4386870981 abstract "Thermally conductive materials (TCMs) are highly desirable for thermal management applications to tackle the overheating concerns in the electronics industry. Despite recent progress, the development of high performance TCMs integrated with an in-plane thermal conductivity (TC) higher than 50.0 W (m K)-1 and a through-plane TC greater than 10.0 W (m K)-1 is still challenging. Herein, self-standing liquid metal@boron nitride (LM@BN) bulks with ultrahigh in-plane TC and through-plane TC were reported for the first time. In the LM@BN bulks, LM could serve as a bonding and thermal linker among the oriented BN platelets, thus remarkably accelerating heat transfer across the whole system. Benefiting from the formation of a unique structure, the LM@BN bulk achieved an ultrahigh in-plane TC of 82.2 W (m K)-1 and a through-plane TC of 20.6 W (m K)-1, which were among the highest values ever reported for TCMs. Furthermore, the LM@BN bulks exhibited superior compressive and leakage-free performances, with a high compressive strength (5.2 MPa) and without any LM leakage even after being crushed. It was also demonstrated that the excellent TCs of the LM@BN bulks made them effectively cool high-power light emitting diode modules. This work opens up one promising pathway for the development of high-performance TCMs for thermal management in the electronics industry." @default.
W4386870981 created "2023-09-20" @default.
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W4386870981 date "2023-01-01" @default.
W4386870981 modified "2023-09-30" @default.
W4386870981 title "Self-standing Boron Nitride Bulks Enabled by Liquid Metal for Thermal Management" @default.
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W4386870981 doi "https://doi.org/10.1039/d3mh01359f" @default.
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