Applied Materials Solves Major Bottleneck to Continued 2D Scaling

SANTA CLARA, Calif., July 20, 2020 (GLOBE NEWSWIRE) -- Applied Materials, Inc. today introduced a new technology that removes a critical bottleneck to continued 2D scaling in foundry-logic nodes.

Applied’s new Selective Tungsten process technology gives chipmakers a new way to build transistor contacts, which are the crucial, first level of wiring that connects the transistor to the rest of the wiring in the chip. The selective deposition innovation lowers contact resistance which impedes transistor performance and increases power consumption. With this technology, node scaling of transistors and their contacts can continue to 5nm, 3nm and below, enabling simultaneous advances in chip power, performance and area/cost (PPAC).

Scaling Challenge

While advances in lithography have helped shrink the transistor contact vias, the traditional approach to filling the vias with contact metal has become a critical bottleneck to PPAC.

Traditionally, the transistor contacts have been formed in a multi-layer process. The contact via is first lined with an adhesion and barrier layer made of titanium nitride, then a nucleation layer is deposited, and finally the remaining space is filled with tungsten, which is the contact metal of choice due to its low resistivity.

At the 7nm foundry node, the contact via is only about 20nm in diameter. The liner-barrier and nucleation layers occupy approximately 75 percent of the via’s volume, leaving only around 25 percent of the volume for tungsten. The thin tungsten wire has very high contact resistance, and this creates a major bottleneck to PPAC and further 2D scaling.

“With the arrival of EUV, we need to solve some critical materials engineering challenges to enable 2D scaling to continue,” said Dan Hutcheson, chairman and CEO of VLSIresearch. “Liner-barriers have become our industry’s equivalent to arterial plaque, robbing the chip of the flow of electrons it needs for peak performance. Applied Materials’ selective tungsten is the breakthrough we’ve been waiting for.”

Selective Tungsten Deposition

Applied’s new enables chipmakers to selectively deposit tungsten in the transistor contact vias, eliminating the liner-barrier and nucleation layers. The entire via is filled with low-resistance tungsten, and the bottleneck to continued PPAC scaling is removed.

Applied’s Selective Tungsten technology is an Integrated Materials Solution that combines multiple process technologies in a pristine, high-vacuum environment that is many times cleaner than the cleanroom itself. Atomic-level surface treatments are applied to the wafer, and a unique deposition process is employed so that tungsten atoms are selectively deposited in the contact vias, creating a perfect bottom-up fill with no delamination, seams or voids. 

“For decades, the industry could count on 2D scaling to drive simultaneous improvements in power, performance and area/cost,” said Kevin Moraes, vice president, Semiconductor Products Group at Applied Materials. “But today, the geometries are becoming so small that we are hitting the physical limits of conventional materials and materials engineering techniques. Our Integrated Materials Solution for Selective Tungsten is a great example of how Applied Materials is inventing new ways to shrink, without compromising power and performance.”   

The new Endura system has been selected by multiple leading customers worldwide. It is the latest addition to Applied’s portfolio of innovative selective process technologies which include selective epitaxy, selective deposition and selective removal. These selective processes allow chipmakers to create, shape and modify materials in entirely new ways to enable continued advances in PPAC.

About Applied Materials

Applied Materials, Inc. (Nasdaq: AMAT) is the leader in materials engineering solutions used to produce virtually every new chip and advanced display in the world. Our expertise in modifying materials at atomic levels and on an industrial scale enables customers to transform possibilities into reality. At Applied Materials, our innovations make possible the technology shaping the future. Learn more at .

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