Authored by Octavio Albarrán, Renata Garcés, Giacomo Po, Christoph F. Schmidt, and Jeff D. Eldredge
Simplified model of van der Waals forces will allow previously impossible simulations of how faceted nanoparticles self-assemble into larger structures
Highly competitive national awards will help 21 new and returning Duke Engineering graduate students conduct research on campus
Four Duke Engineers are included in the most highly-cited list this year. Their scholarly publications are viewed as important and influential by their peers.
Duke engineers are developing comfortable textiles that reduce demand for air conditioning
New hydrogel triggers adaptive immune system, leading to improved tissue repair
Adding left- or right-handed organic molecules to hybrid perovskite semiconductors may offer a path toward spintronic computing
Tatiana Segura was recognized for her pioneering work to use biomaterials to jump-start the body’s innate healing abilities
MEMS department and chair position named to recognize long-term contributions of former LORD Corporation chair Thomas Lord and president Donald Alstadt
Duke was awarded $3 million to develop a graduate training program at the nexus of artificial intelligence and materials science
‘Cold neutrons’ uncover atomic dynamics that give thermoelectric materials low-heat conductivity
Duke engineers and clinicians devise a system for ensuring patients receive just the right amount of air
Slow-release molecule featuring two complementary type 2 diabetes drugs controls blood sugar levels while promoting weight loss in mice for one week
Renewal grant ties Duke together with Triangle universities to help researchers, businesses and educators pursue nanotechnology innovation
New faculty member Xiaoyue Ni develops programmable materials and wearable electronic devices to advance precision medicine and health monitoring
DMI adds Civil Environmental Engineering and Environmental Toxicology faculty who research environmental impacts of materials