In this work, thermal characteristic of silver-copper (Ag-Cu) nanopaste that consists of a mixture of nano-sized Ag and Cu particles and organic compounds meant for high-temperature die-attach application is reported. The Ag-Cu nanopaste was sintered at 380 degrees C for 30 min without the need of applying external pressure and the effect of Cu loading (20-80 wt) on the thermal properties was investigated in against of pure Ag nanopaste and pure Cu nanopaste. The results showed the specific heat of sintered Ag-Cu nanopaste was increased as the loading of Cu increased. For thermal conductivity and coefficient of thermal expansion (CTE) of sintered Ag-Cu nanopaste, a declining trend has been recorded with the increment of Cu loading. Overall, the sintered Ag-Cu nanopaste with 20 wt of Cu loading has demonstrated the best combination of thermal conductivity (K) and CTE (alpha), which were 159 W/m K and 13 x 10(-6)/K, respectively. It has proven that there was a strong correlation between the amount of pores and thermal properties of the nanopaste. The ratio of K/alpha is a performance index (M), which has shown a higher value (12.2 x 10(6) W/m) than most of the commonly used die-attach systems. Finally, the Ag-Cu nanopaste has demonstrated a melting point of 955 degrees C, which can be proposed as an alternative high-temperature die-attach material. (C) 2014 Elsevier Masson SAS. All rights reserved.
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机译:在这项工作中,报道了银铜(Ag-Cu)纳米糊的热特性,该糊由纳米尺寸的Ag和Cu颗粒与有机化合物的混合物组成,适用于高温芯片连接应用。在无需施加外压的情况下,将Ag-Cu纳米浆料在380摄氏度下烧结30分钟,并针对纯Ag纳米浆料和纯Cu纳米浆料研究了载铜量(20-80 wt)对热性能的影响。结果表明,随着Cu含量的增加,Ag-Cu纳米膏烧结体的比热增加。对于烧结的Ag-Cu纳米膏的导热率和热膨胀系数(CTE),已记录了随着Cu负载的增加而下降的趋势。总体而言,具有20 wt%铜负载的烧结Ag-Cu纳米浆料已证明导热率(K)和CTE(alpha)的最佳组合,分别为159 W / m K和13 x 10(-6)/ K。 。已经证明,孔的数量和纳米糊的热性能之间具有很强的相关性。 K / alpha之比是性能指标(M),与大多数常用的芯片连接系统相比,它的值更高(12.2 x 10(6)W / m)。最后,Ag-Cu纳米糊剂的熔点为955摄氏度,可以作为一种替代的高温芯片连接材料。 (C)2014 Elsevier Masson SAS。版权所有。
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