Enhancements on Underfill Materials' Thermal Conductivity by Insulation Coating Layer Control of Conductive Particles

机译：通过控制导电颗粒的绝缘涂层来增强底部填充材料的导热性

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In this study, an alumina coated silver core/shell structure particles were prepared through a solgel approach. Various techniques were used to characterize the as-prepared products, including field emission scanning electron microscopy (FE-SEM), field emission transition electron microscopy(FE-TEM), energy-dispersive X-ray spectroscopy (EDS) and thermal transient method. FE-SEM images showed a morphology of alumina coated Ag(ACA) particle and FE-TEM images showed a cross-section of synthesized alumina shell. EDS mapping confirmed that the synthesized shell was composed of Al and O. The thickness of the alumina shell satisfying high insulation resistivity and thermal conductivity was 23.5 nm. The electrical resistance and thermal conductivity of underfill using this alumina coated Ag (ACA) particle was 1.6E12 ?-cm and 1.9 Wm^-1 K^-1. When alumina coated Ag (ACA) particle and alumina were mixed to increase the thermal conductivity, it could be possible to achieve 2.34 Wm^-1 K^-1.

机译：在这项研究中，通过溶胶凝胶法制备了氧化铝包覆的银核/壳结构颗粒。各种技术用于表征所制备的产品，包括场发射扫描电子显微镜（FE-SEM），场发射过渡电子显微镜（FE-TEM），能量色散X射线光谱（EDS）和热瞬变法。 FE-SEM图像显示了氧化铝包覆的Ag（ACA）颗粒的形态，FE-TEM图像显示了合成的氧化铝壳的横截面。 EDS作图证实合成的壳由Al和O组成。满足高绝缘电阻率和热导率的氧化铝壳的厚度为23.5nm。使用该氧化铝包覆的Ag（ACA）颗粒的底部填充材料的电阻和热导率是1.6E12Ω·cm和1.9Wm ^ -1K ^ -1。当将涂覆有氧化铝的Ag（ACA）颗粒和氧化铝混合以增加热导率时，可以实现2.34Wm ^ -1K ^ -1。

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《IEEE Electronic Components and Technology Conference》|2018年|2431-2436|共6页
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Tae-Ryong Kim; Kisu Joo; Boo Taek Lim; Sung-Soon Choi; Boung Ju Lee; Euijoon Yoon; Se Young Jeong; Myung Jin Yim;
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Thermal conductivity; Conductivity; Resistance; Powders; Silver; Electrical resistance measurement;

机译：导热率;导电率;电阻;粉末;银;电阻率测量;

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Enhancements on Underfill Materials' Thermal Conductivity by Insulation Coating Layer Control of Conductive Particles

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