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‘Fancy tool’: how China cut chip defects by 99% for near-perfect lithography (www.scmp.com)

submitted 1 week ago by yogthos@lemmygrad.ml to c/technology@lemmygrad.ml

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In a major leap for the global semiconductor industry, a joint Chinese research team has developed a method that can slash defects in lithography – a critical step in chipmaking – by up to 99 per cent.

The researchers achieved unprecedented clarity by using cryo-electron tomography (cryo-ET) to pinpoint, for the first time, the minute sources of common manufacturing flaws.

The findings, published in the journal Nature Communications on September 30, by Professor Peng Hailin from Peking University in collaboration with researchers from Tsinghua University and the University of Hong Kong, were hailed by reviewers as a “fancy tool” that “would benefit peer researchers and industrial users quite a lot”.

“The team has proposed a solution compatible with existing semiconductor production lines,” Peng said in an interview with Beijing-based Science and Technology Daily published on Monday. “It can reduce lithography defects on 12-inch (30cm) wafers by 99 per cent,” he added, indicating substantial cost benefits to the market.

Lithography is one of the most critical steps in chip manufacturing. “It can be understood as ‘printing circuits’ onto semiconductor wafers such as silicon,” Peng said. “Essentially, an ultra-precise ‘projector’ shrinks and transfers pre-designed circuit patterns onto a special film coating the wafer, which is then developed and fixed.”

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[–] Comprehensive49@lemmygrad.ml 4 points 6 days ago* (last edited 6 days ago)

Here's the link to the paper: https://www.nature.com/articles/s41467-025-63689-4

And here's the abstract:

Liquid film is ubiquitous in nature and serves as the critical medium for the dissolution of photoresist to create nanoscale circuit patterns in lithography, which is a core task since the birth of semiconductor industry. However, despite decades of research, the microscopic behaviors of photoresist in liquid film and at interfaces remain elusive, leading to industrial effort for pattern defect control largely a trial-and-error process. Here, we unravel the nanostructures and dynamics of photoresist polymers in liquid film and at gas-liquid interface using a cryo-electron tomography (cryo-ET) methodology. The native-state three-dimensional structures of photoresist polymers are reconstructed by cryo-ET at significantly improved resolution compared to conventional methods. Cryo-ET reconstructions resolve the spatial distributions of photoresist polymers across gas-liquid interface into bulk solution, revealing the cohesional entanglements between polymer chains. By inhibiting the polymer entanglements and leveraging photoresist’s adsorption at gas-liquid interface, the contaminations across 12 inch wafers have been eliminated under industrial conditions, yielding a > 99% improvement in minimizing the pattern defects for fab-compatible lithography.