Inflammation plays an important role in the response to danger signals arising from damage
to our body and in restoring homeostasis. Dysregulated inflammatory responses occur in …

Luminescence imaging in biomedical research has allowed new insights into the
architecture of pathological tissues, signalling networks and cell interactions, and is now …

Biological materials are self-assembled with near-atomic precision in living cells, whereas
synthetic 3D structures generally lack such precision and controllability. Recently, DNA …

Since the first connection between Fenton chemistry and biomedicine, numerous studies
have been presented in this field. Comprehensive presentation of the guidance from Fenton …

Inorganic nanomaterials that have inherently exceptional physicochemical properties (eg,
catalytic, optical, thermal, electrical, or magnetic performance) that can provide desirable …

Strategies for functionalizing diverse tetrahedral framework nucleic acids (tFNAs) have been
extensively explored since the first successful fabrication of tFNA by Turberfield. One‐pot …

DNA origami has emerged as a powerful method to generate DNA nanostructures with
dynamic properties and nanoscale control. These nanostructures enable complex …

MicroRNA (miR)‐based therapy shows strong potential; however, structural limitations pose
a challenge in fully exploiting its biomedical functionality. Tetrahedral framework DNA (tFNA) …

Oxidative stress is associated with many acute and chronic inflammatory diseases, yet
limited treatment is currently available clinically. The development of enzyme-mimicking …

The physicochemical nature of DNA allows the assembly of highly predictable structures via
several fabrication strategies, which have been applied to make breakthroughs in various …