News News Events All News Stories All news stories Filter by Topics Academics Active Learning Labs AI / Machine Learning Allston Campus Applied Computation Applied Mathematics Applied Physics Alumni Awards Computational Science & Engineering Data Sciences Dean REEF Makerspace Bioengineering Climate Computer Science Cooking COVID-19 Design Diversity / Inclusion Electrical Engineering Entrepreneurship Environment Environmental Science & Engineering Ethics Events Geoengineering Graduate Student Profile Health / Medicine Industry K-12 Master of Design Engineering Materials Materials Science & Mechanical Engineering MS/MBA Optics / Photonics Planetary Science Quantum Engineering Robotics Student Organizations Technology Undergraduate Student Profile Date Showing 560 of 632 results May 18, 2016 Harnessing engineered slippery surfaces for tissue repair A new method could facilitate the transfer of intact regenerating cell sheets from the culture dish to damaged tissues in patients Jan 17, 2018 Small but fast: a miniaturized origami-inspired robot combines micrometer precision with high speed The millimeter-scale robot opens new avenues for microsurgery, microassembly and micromanipulation Robotics, 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 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, Nov 11, 2020 A viable vaccine for tough tumors Biomaterial-based cancer vaccine combines chemo and immunotherapy to treat triple-negative breast cancer in mice Bioengineering, Health / Medicine, Mar 26, 2019 A rubber computer eliminates the last hard components from soft robots Soft digital logic emulates the thought process of an electronic computer and the feel of a human hand Robotics, Oct 13, 2015 What drones can do HUBweek event at Harvard Stadium showcases flying robots’ potential Robotics, Sep 14, 2015 Filling a void in stem cell therapy A new porous hydrogel could boost the success of stem-cell-based tissue regeneration Feb 11, 2019 A bioengineered factory for T-cells Injectable sponge-like gel enhances the quantity and quality of T-cells Bioengineering, Jul 19, 2017 No battery, no wire, no problem Wireless magnetic fields and actuator “muscles” allow folding robots to move without batteries Pagination First page « Previous page ‹ … Page 54 Page 55 Current page 56 Page 57 Page 58 … Page 63 63 Page 64 64 Next page › Last page »
May 18, 2016 Harnessing engineered slippery surfaces for tissue repair A new method could facilitate the transfer of intact regenerating cell sheets from the culture dish to damaged tissues in patients
Jan 17, 2018 Small but fast: a miniaturized origami-inspired robot combines micrometer precision with high speed The millimeter-scale robot opens new avenues for microsurgery, microassembly and micromanipulation Robotics,
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 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,
Nov 11, 2020 A viable vaccine for tough tumors Biomaterial-based cancer vaccine combines chemo and immunotherapy to treat triple-negative breast cancer in mice Bioengineering, Health / Medicine,
Mar 26, 2019 A rubber computer eliminates the last hard components from soft robots Soft digital logic emulates the thought process of an electronic computer and the feel of a human hand Robotics,
Oct 13, 2015 What drones can do HUBweek event at Harvard Stadium showcases flying robots’ potential Robotics,
Sep 14, 2015 Filling a void in stem cell therapy A new porous hydrogel could boost the success of stem-cell-based tissue regeneration
Feb 11, 2019 A bioengineered factory for T-cells Injectable sponge-like gel enhances the quantity and quality of T-cells Bioengineering,
Jul 19, 2017 No battery, no wire, no problem Wireless magnetic fields and actuator “muscles” allow folding robots to move without batteries
