DNA nanotechnology has emerged as a powerful tool to precisely design and control
molecular circuits, machines and nanostructures. A major goal in this field is to build devices …

Nucleic acids, including deoxyribonucleic acid (DNA) and ribonucleic acid (RNA), are
natural biopolymers composed of nucleotides that store, transmit, and express genetic …

DNA nanotechnology has progressed from proof-of-concept demonstrations of structural
design towards application-oriented research. As a natural material with excellent self …

Development of biosensing platforms plays a key role in research settings for identification
of biomarkers and in clinical applications for diagnostics. Biosensors based on nucleic acids …

The blooming field of structural DNA nanotechnology harnessing the material properties of
nucleic acids has attracted widespread interest. The exploitation of the precise and …

DNA-functionalized gold nanoparticles (AuNPs) are popular hybrid materials with
applications in directed assembly, biosensor development, and drug delivery. This system is …

Over the past few decades, DNA nanotechnology engenders a vast variety of programmable
nanostructures utilizing Watson–Crick base pairing. Due to their precise engineering …

One of the biggest obstacles for the use of antisense oligonucleotides as antibacterial
therapeutics is their limited uptake by bacterial cells without a suitable carrier, especially in …

MicroRNAs are involved in the crucial processes of development and diseases and have
emerged as a new class of biomarkers. The field of DNA nanotechnology has shown great …

Molecular recognition at the biointerface plays a critical role in sensing molecular
interactions (eg, DNA hybridization) and extracellular changes, which can directly affect the …