A technical paper titled “Chemically tailored block copolymers for highly reliable sub-10-nm patterns by directed ...

What is Block Copolymer Lithography? Block copolymer lithography is a nanofabrication technique that utilizes the self-assembly properties of block copolymers to create ordered nanostructures. Block ...

As one would expect, creating such finely detailed structures on any kind of material is a massive undertaking. One promising avenue to achieve this feat is called directed self-assembly (DSA) with ...

Chemically tailored block copolymers for highly reliable sub-10-nm patterns by directed self-assembly. Nature Communications , 2024; 15 (1) DOI: 10.1038/s41467-024-49839-0 Cite This Page : ...

In a recent Nature Communications study, researchers explored nanoporous amorphous carbon nanopillars, showcasing their ...

Citations over 20,000; recent average over 1,000/year; h-index 65; i10-index 178 https://scholar.google.com/citations?user=IvXngckAAAAJ&hl=en&oi=ao Jin, E.; Zhang, B ...

Here, authors combine self-assembly of nanoscale block copolymer and carbonization to create nanoporous amorphous carbon materials, which have the density of elastomers or plastic but the strength ...

His group is interested in various ordered polymeric systems, including crystalline, liquid crystalline and block copolymers for energy storage and biomedical applications. Christopher Li is a Fellow ...

Water-soluble polymers, block copolymers, living radical polymerisation (e.g. RAFT and ATRP), polymerisation-induced self-assembly, dispersion polymerisation, micellar self-assembly, block copolymer ...

Polystyrene is a synthetic aromatic polymer that can be rigid, foamed, or an integral part of a copolymer. Copolymers include systems such as high impact polystyrene (HIPS) and acrylonitrile butadiene ...

In a study published in Chemical Communications, a research team from Osaka University has produced spin-coated chiral copolymer films that display strong spin polarization, which enables the ...

Sep. 26, 2024 — Scientists have used pressure with a twisting shear to permanently deform silicon, an important material for electronics. The resulting changes in silicon's microstructure ...