Title :
Superior thermal stability of redistribution layer tailored by nanotwinned copper and the influence on wafer warpage
Author :
Heng Li ; Chunsheng Zhu ; Gaowei Xu ; Le Luo ; Shenwu Tian
Author_Institution :
State Key Lab. Transducer Technol, Shanghai Inst Microsyst & Informat Technol, Shanghai, China
Abstract :
Nanotwinned copper has been got widely attention in microelectronics because it simultaneously demonstrate high strength, high conductivity, superior thermal stability, which makes it a very promising candidate to replace the position of common copper in the next generation of IC and packaging materials. The redistribution layer, a key process of wafer level packaging, was tailored by pulse electrodeposited nanotwinned copper in this paper. Quite different in-situ measured warpage characteristics was revealed during thermal cycling from room temperature to 300 °C, evidencing the superior thermal stability of nanotwinned copper. Further microstructure analyze proofed that irreversible twin boundary evolution rather than grain boundary evolution during annealing accounts for the thermal stability.
Keywords :
copper alloys; electrodeposition; nanostructured materials; thermal conductivity; thermal stability; wafer level packaging; Cu; IC; annealing; grain boundary evolution; in-situ measured warpage characteristics; irreversible twin boundary evolution; microelectronics; microstructure; packaging materials; pulse electrodeposited nanotwinned copper; redistribution layer; temperature 293 K to 298 K; thermal conductivity; thermal cycling; thermal stability; wafer level packaging; wafer warpage; Copper; Microelectronics; Microstructure; Stability analysis; Stress; Temperature measurement; Thermal stability; nanotwinned copper; superior thermal stability; wafer level packaging; wafer warpage;
Conference_Titel :
Electronic Packaging Technology (ICEPT), 2014 15th International Conference on
Conference_Location :
Chengdu
DOI :
10.1109/ICEPT.2014.6922947
