With blazing speed and seemingly limitless digital memory, the personal computers of the early 1990s rocketed past those that ranked as state-of-the-art just a couple of years earlier. Within a few ...
In an inverse tapered block copolymer, the opposite occurs (see figure). Tapering the interface is thought to reduce the "penalty" of mixing between the two very different blocks. The result is a ...
A recently developed block copolymer could help push the limits of integration and miniaturization in semiconductor manufacturing, report scientists at Tokyo Institute of Technology (Tokyo Tech) and ...
A research team has developed a methodology to precisely design and control the "degree of disorder" in nanopattern arrays ...
A combination of self-assembly and jet printing can be used to create block copolymer films with complex structures and tunable periodicities across a large substrate. Block copolymer nanolithography ...
(Nanowerk Spotlight) Block copolymer (BCP) lithography is a cost-effective, parallel, and scalable nanolithography for the densely packed periodic arrays of nanoscale features, whose typical dimension ...
The design of block copolymers that self-assemble into various shapes has proved an attractive approach for nanoscale periodic patterning that can cover large areas. However, various approaches that ...
The development hinged on chemical engineering and materials science professor Kechun Zhang and postdoctoral associate Mingyong Xiong first designing a biosynthetic route to make the six-membered ring ...
A recently developed block copolymer could help push the limits of integration and miniaturization in semiconductor manufacturing, report scientists. Chemically tailored for reliable directed ...
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