Eutectic Bonding
Eutectic wafer bonding for reliable hermetic sealing
Introduction
Eutectic bonding, also called eutectic soldering, is where the combination of two or more metals allow direct transformation from solid to liquid state or vice versa at specific temperature without passing two-phase equilibrium. The eutectic temperature is much lower than the melting temperature of the materials that are involved in the bonding process. Eutectic bonding is ideal for high-vacuum applications as this process has very low outgassing.
Eutectic wafer bonding is widely used in the MEMS industry for hermetic sealing, pressure or vacuum encapsulation as it allows highly reliable wafer-level processing for devices with the smallest form factors. The most common metals/alloys that are used in eutectic bonding are Al-Ge, Au-Sn and Au-In. However, there are many other material combinations available that can produce a eutectic bonding system. Additionally, the ability of silicon to alloy with metals like Au can also be the basis for eutectic bonding. All eutectic bonds must go through a liquid phase and thus are less sensitive to surface flatness irregularities, scratches and particles, thereby facilitating high volume manufacturing. Bonding temperature, time and pressure are the most important parameters for eutectic bonding where high bond strength can be achieved with low processing temperature and minimum resultant stress. Eutectic bonding can additionally enable hermetic sealing and electrical interconnections in a single process. Compared to other intermediate layers, such as adhesives or glass-frit, eutectic bonding also promotes better out-gassing and hermeticity.
Features
- Vacuum encapsulation
- Defined pressure encapsulation
- Conductive interface
- Hermetic sealing
- Good mechanical strength
- Narrow bond lines
- Good post-alignment bonding
- Low applied force
- Reversible process
- High fabrication yield
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Events
Beams & More 2025
Hören Sie sich unseren Vortrag "Status and Perspectives of Nanoimprint Lithography – The Scalable Path to Advanced Patterning" gehalten von Senior Process Technology Engineer Patrick Schuster auf der Beams & More an.
SEMICON EUROPA 2025
Treffen Sie das EVG-Team am Stand #B1241 und besuchen Sie unsere Poster-Präsentation auf der APC:
"High Throughput Digital Lithography Development for 3D Device Integration" von Business Development Manager Dr. Ksenija Varga.
WaferBond 2025
Besuchen Sie unseren Stand auf der Internationalen Wafer Bonding Konferenz und hören Sie sich unsere Talks an:
"Impact of Surface Condition on In-Plane Distortion in Si Wafer Bonding: Correlation with Adhesion Energy and Bondwave Propagation Speed" von Technology Development Dr. Christoph Flötgen.
“Advanced IR Laser Debonding on Silicon Wafers for RDL- first FOWLP” von Supervisor Process Technology Peter Urban.
“D2W Bonding of III-V and piezo electrical materials for Heterogeneous Integration” von Team Leader Process Technology Mariana Pires.
“Comprehensive Bond strength optimization of LiTaO3 bonding using ComBond Technology” von Supervisor Process Technology Michael Dornetshumer.
“ComBond Bonding of Diamond and other Materials for Advanced Thermal Management” von Senior Process Technology Engineer Matthias Danner.
und besuchen Sie die Poster Presentation, wo wir mit folgendem Thema vertreten sind:
“Comparative Analysis of Atmospheric and ComBond-Activated TiTi thermos-compression Bonding” von Team Leader Process Technology Thomas Stöttinger.
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