Structural DNA nanotechnology enables the fabrication of user-defined DNA origami
nanostructures (DNs) for biological applications. However, the role of DN design during …

Biocompatible DNA origami nanostructures (DONs) attract significant interest as potential
targeted drug carriers. Their sensitivity to various environmental triggers is beneficial as a …

DNA nanotechnology is rapidly gaining traction in numerous applications, each bearing
varying degrees of tolerance to the quality and quantity necessary for viable nanostructure …

A variety of imaging and analytical methods have been developed to study nanoparticles in
cells. Each has its benefits, limitations, and varying degrees of expense and difficulties in …

The charge density of DNA is a key parameter in strand hybridization and for the interactions
occurring between DNA and molecules in biological systems. Due to the intricate structure of …

Structural DNA nanotechnology enables user-prescribed design of DNA nanostructures
(DNs) for biological applications, but how DN design determines their bio-distribution and …

This review looks at the different approaches, techniques, and materials devoted to DNA
studies. In the past few decades, DNA nanotechnology, micro-fabrication, imaging, and …

The fluorescent metabolic labeling of microorganisms genome is an advanced imaging
technique to observe and study the native shapes, structural changes, functions, and …

The synthesis of nanoparticles with a specific size and shape is a great challenge despite
the availability of several preparation techniques. The accurate characterization of the …

Abstract Three-dimensional (3D) homo/heterogeneous DNA nanostructures were studied
with low-voltage scanning transmission electron microscopy (LV-STEM). Four types of 3D …