Designing programmable biomaterials that could act as extracellular matrices and permit
functionalization is a current need for tissue engineering advancement. DNA based …

Improper use of antibiotics has led to the global rise of drug-resistant biofilm bacteria. Thus,
researchers have been increasingly interested in green materials that are highly …

This article introduces a label-free DNA sensor based on the double microcavities Fabry–
Perot (FP) interference and Vernier effect. The sensor can simultaneously monitor the …

DNA origami is a cutting-edge nanotechnology approach that creates precise and detailed
2D and 3D nanostructures. The crucial feature of DNA origami is how it is created, which …

The chemistry of DNA endows it with certain functional properties that facilitate the
generation of self‐assembled nanostructures, offering precise control over their geometry …

Nanotization of biomass for interesting biomedical applications is still in the nascent stage
with no visible market available products. While products derived from biomass DNA and …

The extracellular matrix is a highly dynamic environment, and the precise temporal
presentation of biochemical signals is critical for regulating cell behavior during …

DNA nanocages have been explored for abilities to influence cellular behavior and
functions. Recent times have seen the development of new emergent functionalities of DNA …

DNA nanotechnology has yielded remarkable advances in composite materials with diverse
applications in biomedicine. The specificity and predictability of building 3D structures at the …

A template-assisted assembly approach to a C24 fullerene-like double-stranded DNA
polyhedral shell is proposed. The assembly employed a supramolecular oligonucleotide …