Professor Tsumoru Shintake of the Okinawa Institute of Science and Technology (OIST) has proposed an extreme ultraviolet (EUV) lithography technology that he claims is superior to the method currently ...

For decades, traditional lithography techniques—such as electron beam lithography and nanoimprinting—have struggled to meet the demand for ultra-fine, high-aspect-ratio structures in general. Similar ...

"Instead of using a traditional lithography process, which can be too harsh on delicate biological materials, our technique applies a thin layer of ice to protect the material's surface while the ...

Moving beyond the limits of conventional chip fabrication, a joint China–US research team has ...

The groundbreaking discovery could open new doors for other researchers working with delicate materials such as cell membranes. (Nanowerk News) Imagine drawing on something as delicate as a living ...

A distinguished expert in AI-driven computational lithography and advanced metrology, Botlagunta Preethish Nandan has recently come up with a new approach to elevate the precision and efficiency of ...

Traditional lithography remains a standard in the industry, providing precision and a relatively cost-effective way to create patterns on the wafer when producing very high volumes of chips. However, ...

How Does EUV Lithography Work? EUV Lithography is a state-of-the-art technology in chip manufacturing that uses highly energetic ultraviolet light to carve detailed patterns onto semiconductor ...

(Nanowerk News) In a breakthrough set to revolutionize the semiconductor industry, the School of Engineering of the Hong Kong University of Science and Technology (HKUST) has developed the world’s ...

Layout decomposition represents a critical step in the semiconductor manufacturing process, whereby integrated circuit designs are partitioned into multiple layers or masks to overcome the inherent ...