Collapsible scissored surfaces’ complete trilogy of metamaterial design principles ...
Patient recovery from many debilitating conditions and diseases could be sped up significantly and be more effective if drugs and therapeutic molecules were delivered right to where they are needed in ...
Key Takeaways Harvard researchers have developed a 3D printing method that places “active” liquid crystal elastomers and “passive” elastomers side‑by‑side in filaments, effectively pre‑programming the ...
A new study by Earth scientists in the Harvard John A. Paulson School of Engineering and Applied Sciences (SEAS) offers an explanation for one of Earth’s great climate puzzles: how the Sturtian ...
Allen E. and Marilyn M. Puckett Professor of Mechanics and Materials ...
Key Takeaways A Harvard team built a chip-scale lithium niobate UV light source that generates 120 times more power than previous approaches, paving the way for practical uses. They used a novel ...
Lola England de Valpine Professor of Applied Mathematics, of Organismic and Evolutionary Biology, and of Physics ...
Study offers insights into imaging and behavior of soft materials ...
When Apple discovers trending popular emojis, or when Google reports traffic at a busy restaurant, they’re analyzing large datasets made up of individual people. Those people’s personal information is ...
John L. Loeb Associate Professor of Engineering and Applied Sciences ...
Key Takeaways Harvard engineers have built a chip-scale, twisted bilayer photonic crystal whose twist angle and spacing can be dynamically adjusted with a MEMS actuator to tune the chirality of light.
Key Takeaways Squeaks from soft-on-rigid interfaces, like shoes on a smooth floor, are driven by opening slip pulses that rapidly detach and reattach the interface at near-supersonic speeds. The ...