Scientists have used DNA's self-assembling properties to engineer intricate moiré superlattices at the nanometer ...

Researchers are creating new moiré materials at the nanometer scale using advanced DNA nanotechnology: DNA moiré superlattices form when two periodic ...

Columbia University and Brookhaven National Laboratory researchers have unveiled a groundbreaking method to engineer ...

According to a 2025 report on the Nanotechnology market by Mordor Intelligence, the market is projected to grow from USD ...

Researchers developed a large dodecahedral structure through the self-assembly of metal ions and peptides, with potential implications in drug delivery systems and molecular transportation.

A significant advancement in molecular engineering has produced a large, hollow spherical shell nanostructure through the self-assembly of peptides and metal ions, report researchers from Japan ...

Self-assembly is a fundamental and ubiquitous process observed across physical, chemical, and biological systems. (1−6) A quantitative understanding of self-assembly is crucial for advancing diverse ...

A collaborative team has developed a new method to program molecular self-assembly predictably. Researchers created versatile materials like "Malteser molecules," which could serve as highly specific ...

The self-assembly of molecular components to obtain systems and materials with structures on the nanometer scale (1 nanometer = 1 billionth of a meter) is one of the basic processes of nanotechnology.

In order to create surface patterns, planar molecules with extended pi-conjugated systems have found particularly wide use because they tend to bond in a flat-lying geometry, which allows functional ...