Replisaurus, Leti drive metallization technology into final stages

KISTA, SWEDEN: Replisaurus Technologies, Inc. announced a common laboratory agreement with CEA-Leti, which maintains one of the world's leading research centers for applied electronics in Grenoble, France.

The agreement marks a major step towards commercialization of Replisaurus’ innovative ElectroChemical Pattern Replication (ECPR) metallization process, and allows the company to move full speed ahead as it prepares to meet the high-volume, short cycle demands of the device interconnect market.

Under the multi-year agreement, Replisaurus and Leti personnel will collaborate and take advantage of the lab's extensive manufacturing facilities, experience in both semiconductor and MEMS technology, and expertise with 200mm and 300mm wafer technologies.

The team will initially focus on optimizing the development of reusable master electrodes, a key component of the ECPR process which employs a template to fabricate metal patterns in a single replication step. They will also investigate the opportunities for ECPR in new applications, notably in key growth sectors such as integrated passives, copper pillars and 3D integration.

The team will optimize electrode design and fabrication flow for each application area, ensuring the best yield, endurance and cycle time.

In order to create a platform to build its mastering business, Replisaurus has started a new company called Replisaurus Mastering, and the program is already up and running at Leti's facility in Grenoble.

"The mastering process is a central part of our business model and a unique component of our technology, so Leti's practical, business-oriented approach to IP rights was a major factor in our decision to partner with them,” said James Quinn, CEO of Replisaurus. “We are moving forward according to plans to roll out our technology, and through this partnership Leti will support us in transferring it to a foundry partner.”

The ECPR process reduces metallization complexity and accelerates production by eliminating many steps from the traditional process. ECPR also provides improved patterning and significant cost and time savings, with a fab-friendly, environmentally clean process that doesn't use solvents or strippers.

Along with its significant environmental benefits, ECPR reduces metallization complexity, boosts production speed, and represents a genuine step forward for the chip industry.