In a recent breakthrough, scientists have developed an innovative technique for creating artificial crystalline structures at the nanoscale. The method, termed “steric zipper interactions,” is based on the self-assembly of peptide molecules. By manipulating the length of the peptides, scientists are able to create an array of intricate structures, from flat sheets to complex networks. The technique is being heralded as a major advance in nanotechnology, as it paves the way for a new generation of nanostructures with unprecedented levels of control. These new materials could have wide-ranging applications, from drug delivery to energy storage.

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source: Phys.org