Scientists are turning DNA into tiny robots that can move, sense, and deliver drugs, pushing nanotechnology closer to ...

Artificial DNA letters beyond A, T, G, C break a fundamental pairing rule to produce nanostructures with new shapes, far greater durability, and an unexpected ability to self-sort.

Scientists are exploring DNA-based robots, tiny molecular machines that could one day navigate the body, deliver targeted ...

DNA origami paves a way to position quantum emitters on chips. Here’s how scientists are making it possible. Conceptual view ...

RNA vaccines saved millions of lives during COVID-19 but have limitations like waning immunity and complex production.

Tunable DNA hairpin springs stretch millions of protein copies under piconewton tension, enabling bulk biochemical discovery ...

The Martin A. Fisher School of Physics at Brandeis University has long held an international reputation for excellence in research, offering its graduate students opportunities to work with top ...

DNA Moiré Superlattices are the focus of a study now published in Nature Nanotechnology. “Unlike conventional methods that rely on mechanical stacking and twisting of two-dimensional materials, our ...

No "sticky ends"? No problem. A new study by NYU chemists finds that DNA tiles can assemble into 3D structures without the sticky cohesion of hydrogen bonding. This finding, published in Nature ...

Researchers have demonstrated a new way to precisely place quantum light sources on chips ...

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 ...

The COVID-19 pandemic brought messenger RNA (mRNA) vaccines to the forefront of global health care. After their clinical ...