Engineers from MIT and Singapore University of Technology and Design are using an optical process to print three-dimensional structures that “remember” their original shapes. Even after being ...

For substances with possible pharmaceutical use, that structure can ... and two-dimensional (2D) structures to have different three-dimensional (3D) shapes. Small differences in shape can ...

Researchers have discovered how graphene, a single-atom-thin layer of carbon, can be forged into three-dimensional objects by using laser light ... metals into 3D shapes with a hammer.

Researchers at TU Delft have combined origami techniques and 3-D printing to create flat structures ... of shape-shifting devices, and the material researchers normally use is neither ubiquitous ...

Researchers at New York University have devised a mathematical approach to predict the structures of crystals ... devices—in a matter of hours using only a laptop, ... There are trillions ...

Belgian mathematician Jean Bourgain posed a seemingly simple question that continued to puzzle researchers for decades. No ...

The precise 3-D structure of the genome is weaved together by architectural proteins. CTCF is one of the most prominent of these structural proteins. Collectively, it helps to shape the overall ...

The images are the predicted 3-D shapes ... predict protein shapes by recognizing patterns in structures that have already been solved through decades of experimental work using electron ...

self-locking structures by using multi-material 3D printing. These origami-inspired designs can transition between flat and three-dimensional forms, locking into place without needing external ...

Scientists from The Hebrew University of Jerusalem have created wood ink that can be extruded into flat wooden structures, self-morphing into complex 3D shapes as they dry and shrink. The ...