In their latest paper in Nature Materials, Gang and his team establish an inverse design strategy for creating the desired 3D structures from a set of nanoscale DNA components and nanoparticles.

Using DNA as smart LEGO bricks, scientists are building the next generation of tiny tech that could change computing, medicine, and more.

Researchers at Columbia University have found a way to marry the versatility of DNA nanotechnology with the toughness of silica-based materials.

Scientists infused a 3D-printed rabbit with genetic material, the first step toward a potential “DNA of things” where biology makes gadgets smarter.

The Do-It-Yourself Nucleic Acid Fluorometer, or DIYNAFLUOR, is a portable device that measures the amount of genetic material extracted from biological samples.

Volumetric DNA microscopy creates detailed 3D maps of gene expression, offering an unprecedented view of genetic sequences and where they are located.

Scientists demonstrated this new "DNA of things" by fabricating a 3D-printed version of the Stanford bunny—a common test model in 3D computer graphics—that stored the printing instructions to ...

This technique, called volumetric DNA microscopy, creates a 3D image of an entire organism from the inside out, giving scientists an unprecedented view of genetic sequences and where they are ...