DNA nanotechnology is an interdisciplinary field that exploits the inherent base-pairing rules of DNA to design and assemble nanoscale structures with high precision. These engineered constructs have ...

Newly developed DNA nanostructures can form flexible, fluid, and stimuli-responsive condensates without relying on chemical cross-linking, report researchers from the Institute of Science Tokyo and ...

Researchers study how DNA nanopores (DNPs) interact with low-curvature supported lipid bilayers over time. Using QCM-D, the study tracks diffusion, aggregation, and incorporation of DNPs, highlighting ...

Scientists have used DNA's self-assembling properties to engineer intricate moiré superlattices at the nanometer scale—structures that twist and layer like never before. With clever molecular ...

A dissertation study at the University of Jyväskylä (Finland) developed two-dimensional fishnet-like structures from DNA origami for silicon surfaces and investigated how different conditions affect ...

Researchers have explored ways to combine these materials into mixed-dimensional heterostructures that could harness the advantages of both. However, controlling the interaction between the components ...

A DNA hydrogel engineered from tetrahedral nanostructures accelerates burn wound healing by directing immune cell behavior, reducing inflammation, and supporting tissue regeneration through structural ...

Cell membranes are the boundaries of living cells. They are made up of amphiphilic lipids, cholesterol, and membrane proteins arranged in a dynamic bilayer. They regulate signal transduction, ...