Biologists have wondered for centuries why plants and animals take the shapes they do. Now, researchers exploring the mechanics of cells and tissues are finding answers that might one day help engineers rebuild our bodies.
Stanford researchers say one way to solve the mystery of why some breast cancers are more likely to spread could come from studying the cell’s mechanical properties.
On the Future of Everything radio show, bioengineering professor Drew Endy discusses what's next for the bio-economy. The question, he says, is, how do we get smarter at designing living systems?
Students in a Biodesign Innovation class got a first-hand look at challenges in health care with intense – and inspiring – hospital simulations. These students took what they learned in the simulations and applied it to new technology solutions.
A new semiconductor developed by Stanford researchers is as flexible as skin and easily degradable. It could have diverse medical and environmental applications, without adding to the mounting pile of global electronic waste.
Paving the way for flexible electronics, Stanford chemical engineers have developed a plastic electrode that stretches like rubber but carries electricity like wires.
Stanford faculty will be part of a new collaboration created by the Chan Zuckerberg Initiative to study biotechnology, together with UC Berkeley and UCSF. Stephen Quake, professor of bioengineering and of applied physics, will co-lead the Biohub.
An undergraduate entrepreneurship program run by Stanford ChEM-H is helping students design and test new drugs to combat the antibiotic-resistant bacteria.
