Search results
62 Results for 'Water'
- Technologies (7)
- Collaborations (0)
- Team (0)
- News (38)
- Pages (0)
- Multimedia (17)
- Publications (0)
- Jobs (0)
- Events (0)
Technologies 7
-
AquaPulse: Portable Off-the-Grid Water Purification
Globally, more than 2 billion people are forced to use a drinking water source that is contaminated with bacteria, parasites, and other pathogens, and an estimated 502,000 people die each year from diarrhea as a result of unsafe water. While a majority of the world has access to improved water sources, many are often contaminated;... -
Plastivores: Plastic-Degrading Super-Microbes and Enzymes
The Plastic Degradation project identifies microbes from natural sources that have a low-level ability to degrade multiple types of plastic. In the laboratory, with the help of synthetic biology, those microbes then are evolved into much more effective plastic-eating microbes that, in the future, could be globally deployed to decompose plastic waste. -
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. -
RAPID: Testing for Food Contaminants
Contamination of food by microorganisms such as certain bacteria, viruses and fungi is a constant concern, with even miniscule amounts of certain species posing a risk for foods to become unsafe and spoiled during storage. Current safety and quality tests are often not sensitive enough to detect rare species, and because they first require the... -
Cell-Free Biomolecule Manufacturing
Wyss Institute researchers have developed a biomolecular manufacturing method that can quickly and easily produce a wide range of vaccines, antimicrobial peptides and antibody conjugates while doing so anywhere, even in places without access to electrical power or refrigeration. The breakthrough could provide a life-saving workaround for making modern interventions available in remote areas. Today... -
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...
News 38
Multimedia 17
-
Video/AnimationOur Sustainable FutureThe Wyss Institute is developing sustainable materials and devices to ensure a bright future and a healthy planet for future generations to inherit. Credit: Wyss Institute at Harvard -
Video/AnimationNucleoTide – CRISPR-based biosensors for rapidly detecting harmful marine microbesThe warming of the oceans due to climate change has increased the frequency and potency of harmful algal blooms. These algae species produce toxins that can harm or even kill people, fish, shellfish, marine mammals, and birds. Researchers at the Wyss Institute are working to develop inexpensive sensors that could detect dangerous algae species earlier... -
Video/AnimationHow can we increase energy efficiency?Inspired by the pitcher plant, researchers at the Wyss Institute, created a non-stick, ultra-repellent, self-healing surface coating called SLIPS (Slippery Liquid-Infused Porous Surfaces). This example of bioinspired engineering, a hallmark of the Wyss, has numerous applications such as in medical devices, HVAC, refrigeration, marine engineering, aviation, and manufacturing. Credit: Wyss Institute at Harvard University -
Video/AnimationHow can we feed the world?The current agricultural methods of feeding the world are not sustainable and already have dire consequences that will worsen as the Earth’s population continues to grow. Researchers at the Wyss Institute are working on various solutions that could help provide food for our future needs with a lower environmental impact. Credit: Wyss Institute at Harvard... -
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/AnimationEngineering Solutions to Confront the Climate CrisisAt the Wyss Institute, we are committed to tackling this existential climate crisis and are expanding our portfolio of sustainability research projects. Join us in reimagining a more sustainable future, together. Credit: Wyss Institute at Harvard University