… Company ventured into making jet fuel, they were making spirits. Vodka, to be precise. The carbon-negative spirit was named one of the best inventions of 2020 by Time magazine. But as … of magnitude more important is the process behind it, which converts excess atmospheric carbon into alcohol and oxygen. The technology is the brainchild of Staff Sheehan, serial … the success of Air Vodka, Staff and his colleagues have expanded the application of his carbon transformation technology to Sustainable Aviation Fuel (SAF). Since its inception, …
… and synthetic-biology-based technologies, they aim to provide a comprehensive microalgal carbon-negative solution for future food production and modern agriculture. The Velocity … and synthetic-biology-based technologies, they aim to provide a comprehensive microalgal carbon-negative solution for future food production and modern agriculture. The Velocity … and synthetic-biology-based technologies, they aim to provide a comprehensive microalgal carbon-negative solution for future food production and modern agriculture. The Velocity …
… for green ventures, agriculture, fashion, transportation, materials, among others. After careful revision by external judges, CBEY awarded over $19,000 in grants to seven … and Applied Sciences) created BlueGreen Materials, a company seeking to manufacture carbon-negative building materials from the ocean that are stronger, more durable, and … for marine infrastructure applications. BlueGreen Materials slashes the embodied carbon and repair costs for seaports, offshore wind, and shoreline protection by …
… to excessive waste through three approaches: Preventing waste Incentivizing stakeholders to care about excessive waste Repurposing waste To address the holes in current solutions, … especially transportation that is environmentally conscious. Current options, such as Zipcars or rideshares are expensive and not environmentally efficient, while other options such as carpools and coordinating through Facebook and other online groups lack security and safety …
… are interested in this opportunity and how it will benefit your professional development/career. Please send your application materials no later than 11:59 PM on January 30, 2022. … are interested in this opportunity and how it will benefit your professional development/career. Please send your application materials no later than 11:59 PM on January 30, 2022. … are interested in this opportunity and how it will benefit your professional development/career. Please send your application materials no later than 11:59 PM on January 30, 2022. … …
… often used in sustainable innovation. Each page includes a set of explanatory resources, carefully curated by Yale-connected experts. The site is launching with the following seven … of sustainability: Blockchain ( curated by Dr. Martin Wainstein , Resident Fellow at CBEY) Carbon Removal ( curated by Dr. Anastasia O’Rourke , Managing Director of Yale’s Carbon Containment Lab ) Climate Tech ( curated by Ben Soltoff , Environmental Innovation …
… Tsai CITY. Noah Walker , (MEM ‘14), Director of Product and Business Development at Indigo Carbon Charissa Rujanavech (MEM ‘13), Principal, Circular Economy at Amazon Kathryn Wright … Tsai CITY. Noah Walker , (MEM ‘14), Director of Product and Business Development at Indigo Carbon Charissa Rujanavech (MEM ‘13), Principal, Circular Economy at Amazon Kathryn Wright … Tsai CITY. Noah Walker , (MEM ‘14), Director of Product and Business Development at Indigo Carbon Charissa Rujanavech (MEM ‘13), Principal, Circular Economy at Amazon Kathryn Wright …
… foods, long overdue efforts to center environmental justice, and the urgency of reducing carbon in agriculture and other sectors,” Soltoff says. About the recipients: Upright … including CBEY’s 2018 Climate Change Innovation Grant. AgriCORE’s mission is to make soil carbon quantification more accessible. Quantifying increasing levels of soil carbon is crucial in persuading more farmers to transition to sustainable and regenerative …
… of students to conduct an independent study (1-3 credits) on policies that can enable low-carbon technologies. Each student (or pair of students) will focus on 1-2 technologies. Over … pairs, the students on the team will focus on 1-2 of the following areas of climate tech: Carbon removal (including direct air capture) Batteries and storage Advanced nuclear Clean hydrogen Renewable thermal Low-carbon materials (including steel and concrete) New energy technology for buildings …