News All news stories Filter by Topics Academics Active Learning Labs AI / Machine Learning Allston Campus Applied Computation Applied Mathematics Applied Physics Alumni Awards Belonging Collective behavior Community Computational Science & Engineering Data Sciences Dean REEF Makerspace Bioengineering Climate Computer Science Cooking COVID-19 Design Electrical Engineering Entrepreneurship Environment Environmental Science & Engineering Ethics Events Geoengineering Graduate Student Profile Health / Medicine Industry K-12 Kirigami Master of Design Engineering Materials Materials Science & Mechanical Engineering Meet Our Faculty Metasurfaces MS/MBA Optics / Photonics Planetary Science Quantum Engineering Research Robotics Robobee Student Organizations Technology Undergraduate Student Profile Wearable Devices Wildfire Date Showing 2136 of 3239 results Feb 11, 2016 A metal that behaves like water Researchers describe new behaviors and new ways to measure the revolutionary material graphene Applied Physics Feb 8, 2016 Alumni Profile: Jeff Tarr, A.B. ’66 Feb 8, 2016 Taking on tuberculosis In Peru, SEAS students enhance mobile app to streamline TB treatment Feb 8, 2016 David Weitz elected to the National Academy of Engineering Applied physicist honored for his contributions to engineering Feb 5, 2016 Michael J. Aziz receives Bruce Chalmers Award Faculty member honored for contributions to materials science Feb 3, 2016 Radhika Nagpal receives McDonald mentoring award Faculty member honored for encouraging women in computer science Feb 2, 2016 How cells tick New work sheds light on the structure of the cell cycle in bacteria and budding yeast Bioengineering, Applied Physics Feb 1, 2016 New research replicates the folding of a fetal human brain Study substantiates a simple mechanical framework for how the human brain folds Jan 28, 2016 Nanoscale materials for the Internet of Things NanoLitz could free up frequency spectrum needed to connect devices Jan 28, 2016 Microtubules, assemble! New research may lead to better understanding of self-organization in cells Materials Jan 26, 2016 Designing a pop-up future Simple origami fold may hold the key to designing pop-up furniture, medical devices and scientific tools Materials Jan 25, 2016 Novel 4D printing method blossoms from botanical inspiration Printed shapeshifting architectures could lead to smart textiles, soft electronics, new biomedical devices and tissue engineering Pagination First page « Previous page ‹ … Page 176 Page 177 Current page 178 Page 179 Page 180 … Page 269 269 Page 270 270 Next page › Last page » Cutting-edge science delivered direct to your inbox. Join the Research Roundup mailing list. Subscribe
Feb 11, 2016 A metal that behaves like water Researchers describe new behaviors and new ways to measure the revolutionary material graphene Applied Physics
Feb 8, 2016 Taking on tuberculosis In Peru, SEAS students enhance mobile app to streamline TB treatment
Feb 8, 2016 David Weitz elected to the National Academy of Engineering Applied physicist honored for his contributions to engineering
Feb 5, 2016 Michael J. Aziz receives Bruce Chalmers Award Faculty member honored for contributions to materials science
Feb 3, 2016 Radhika Nagpal receives McDonald mentoring award Faculty member honored for encouraging women in computer science
Feb 2, 2016 How cells tick New work sheds light on the structure of the cell cycle in bacteria and budding yeast Bioengineering, Applied Physics
Feb 1, 2016 New research replicates the folding of a fetal human brain Study substantiates a simple mechanical framework for how the human brain folds
Jan 28, 2016 Nanoscale materials for the Internet of Things NanoLitz could free up frequency spectrum needed to connect devices
Jan 28, 2016 Microtubules, assemble! New research may lead to better understanding of self-organization in cells Materials
Jan 26, 2016 Designing a pop-up future Simple origami fold may hold the key to designing pop-up furniture, medical devices and scientific tools Materials
Jan 25, 2016 Novel 4D printing method blossoms from botanical inspiration Printed shapeshifting architectures could lead to smart textiles, soft electronics, new biomedical devices and tissue engineering
