AI Article Synopsis
- The research presents a method for creating core-shell solder bumps that facilitate low-temperature chip assembly while allowing for high-temperature connections through transformation.
- The solder bumps consist of a BiIn-based shell with a lower melting point and a Sn core with a higher melting point, enabling assembly at temperatures between 60-80 °C.
- The process takes advantage of the liquid shell's properties to self-align silicon chips in a water bath and, after assembly, a brief heating phase transforms the solder into a solid connection with a higher melting point, achieving durable electrical bonds.
Article Abstract
We demonstrate the realization of core-shell transformation-imprinted solder bumps to enable low-temperature chip assembly, while providing a route to high-temperature interconnects through transformation. The reported core-shell solder bump uses a lower melting point BiIn-based shell and a higher melting point Sn core in the initial stage. The bumps enable fluidic self-assembly and self-alignment at relatively low temperatures (60-80 °C). The bumps use the high surface free energy of the liquid shell during the self-assembly to capture freely suspended Si dies inside a heated (80 °C) water bath, leading to well-ordered defect-free chip arrays; the molten liquid shell wets the metal contact (binding site) on the chips and yields self-aligned and electrically connected devices. The solid core provides the anchor point to the substrate. After the completion of the assembly, a short reflow raises the melting point, yielding a solid electrical connection. The low melting point liquid diffuses into the high melting point core. The tuning of the material ratios leads to tailored transformation-imprinted solders with high melting points (160-206 °C) in the final structure.
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| http://dx.doi.org/10.1021/acsami.8b12390 | DOI Listing |
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