Discipline: Architecture
76 Results for 'Architecture'
- Technologies (7)
- Collaborations (0)
- Team (0)
- News (46)
- Pages (0)
- Multimedia (23)
- Publications (0)
- Jobs (0)
- Events (0)
Technologies 7
-
cSNAP: Eco-Friendly Air Conditioning
Our eco-friendly air conditioning technology is a low-carbon-footprint evaporative cooling system that reduces indoor air temperature without adding humidity. -
Origami-Inspired Radiant Cooling for Improved Thermal Health
Origami-inspired Radiant Cooling devices for a broad range of building interiors use microfluidic water-circuits and foldable designs that increase their surface area to achieve more effective cooling. -
Dynamic Daylight Control System
In the U.S. alone, commercial and residential buildings account for more than 40 percent of the total energy consumption – mostly for lighting. What’s more, the deep building layouts that are typical in the U.S. have led to a complete reliance on artificial lighting systems that are less desirable than natural daylight. Many of the... -
Liquid-Gated Membranes for Filtration
Just like pores in living organisms that control the absorption and excretion of fluids, gases and solids in response to their environments, flow-gating membranes have proved very useful for many mechanical systems, such as gas and liquid separators, dialysis machines, or open heart bypass pumps. But conventional approaches to create synthetic “gated pores” within those... -
Programmable Robot Swarms
Collective behaviors enable animals like ants to achieve remarkable, colony-level feats through the distributed actions of millions of independent agents. These collective behaviors are inspiring engineers at the Wyss Institute to build simple mobile robots that harness the demonstrated power of the swarm, performing collective tasks like transporting large objects or autonomously building human-scale structures.... -
4D Printing of Shapeshifting Devices
Organisms, such as flowers and plants, have tissue compositions and microstructures creating dynamic morphologies that can shapeshift in response to changes in their environments. Researchers at the Wyss Institute have mimicked a variety of such dynamic shape changes like those performed by tendrils, leaves, and flowers in response to changes in humidity or temperature with...
News 46
Multimedia 23
-
Video/AnimationcSNAP: Reimagining CoolingWe are reimagining air-conditioners to meet increasing global cooling demand while combatting climate change. Our novel evaporative cooling technology, cSNAP, uses advanced materials science and design to make affordable, environmentally-positive eco-friendly air conditioners that work in most climates without the use of synthetic refrigerants. Credit: Wyss Institute at Harvard University
-
Video/AnimationOrigami OrgansA multidisciplinary team of scientists, engineers, and architectural designers are developing Origami Organs that could function like artificial kidneys. Credit: Wyss Institute at Harvard University
-
Video/AnimationRomu: A Robot for Environmental ProtectionResearchers at the Wyss Institute have developed a robot designed to drive interlocking sheet piles into the ground to help stabilize soil. Teams of such robots could help combat erosion, restore damaged landscapes, and facilitate sustainable land management in a variety of settings. Credit: Wyss Institute at Harvard
-
Video/AnimationHow a Harvard Professor Makes Transforming Toys & DesignsHow a Harvard Professor Makes Transforming Toys and Designs was originally published by WIRED on November 29, 2018. This story features Associate Faculty member Chuck Hoberman. The original story can be found here.
-
Video/AnimationReconfigurable MaterialsThis video shows how a reconfigurable model structure generated with the teams predictive method can be drawn into different shapes that might perform very different functions. Credit: Harvard School of Engineering and Applied Sciences.
-
Video/AnimationBioprinting: The Kidney’s Proximal TubulesIn this video, see how the Wyss Institute team has advanced bioprinting to the point of being able to fabricate a functional subunit of a kidney. Credit: Wyss Institute at Harvard University