Researchers from MIT’s Plasma Science and Fusion Center and Commonwealth Fusion Systems (CFS) are using high-temperature superconducting tape as a key part of the design for their tokamak reactor, reports Tom Clynes for IEEE Spectrum. The researchers believe that “this novel approach will allow it to build a high-performance tokamak that is much smaller and less expensive than would be possible with previous approaches,” Clynes notes.
MIT researchers are hoping to use Dyson maps “to translate the language of classical physics into terms that a quantum computer—a machine designed to solve complex quandaries by leveraging the unique properties of quantum particles—can understand,” reports Darren Orf for Popular Mechanics.
Prof. Yang Shao-Horn spoke at the State of the Art Jewelry Summit to discuss the jewelry industry’s impact on carbon emissions and sustainability efforts, reports Caroline Palmer for the Financial Times. Shao-Horn's suggestions to tackle the problem involved a mix of a carbon tax, “which could encourage the use of new technology, including electric vehicles, as well as shifting mining practices away from open site to the development of mobile mining vehicles powered by renewable energy or hydrogen,” writes Palmer.
MIT researchers have developed a new compact, lightweight design for a 1-megawatt electrical motor that “could open the door to electrifying much larger aircraft,” reports Ed Gent for IEEE Spectrum. “The majority of CO2 is produced by twin and single-aisle aircraft which require large amounts of power and onboard energy, thus megawatt-class electrical machines are needed to power commercial airliners,” says Prof. Zoltán Spakovszky. “Realizing such machines at 1 MW is a key stepping stone to larger machines and power levels.”
Darby Dunn ’08 speaks with CNBC reporter Catherine Clifford about her journey from building rockets for SpaceX to working on making fusion energy a reality at Commonwealth Fusion Systems (CFS). “For me, it really came down to wanting to use my energy to clean up the planet instead of get off it,” says Dunn. “So that was the huge shift for me to come to CFS.”
Founded by MIT engineers, CubicPV is building a solar-component factory, reports Phred Dvorak for The Wall Street Journal. CubicPV’s process “peels a thin layer of crystallized silicon off the top of the molten material, a technique the company says is faster, cheaper and less wasteful,” explains Dvorak.
Boston Metal, an MIT startup, is developing a new method for producing steel that reduces carbon emissions, reports Catherine Clifford for CNBC. “The main goal of Boston Metal is green steel, but the company will also use its core electrolysis technology to produce tin, niobium, and tantalum metals from what is otherwise considered waste from the mining process,” writes Clifford.
The Economist spotlights how Boston Metal, an MIT startup, has developed a new process for creating steel that avoids producing greenhouse gas emissions. “Instead of releasing CO2 or steam, its approach produces pure oxygen—which is not merely harmless, but actually valuable,” The Economist notes.
Boston Magazine reporter Rowan Jacobsen spotlights how MIT faculty, students and alumni are leading the charge in clean energy startups. “When it comes to game-changing breakthroughs in energy, three letters keep surfacing again and again: MIT,” writes Jacobsen.
Prof. Jessika Trancik speaks with Popular Science reporter Charlotte Hu about the impact of electric vehicles on the environment. “There’s definitely a number of different modes of transport that need to be addressed and green modes of transport that need to be supported,” says Trancik. “We really need to be thinking holistically about all these ways to reduce greenhouse gas emissions.”
Commonwealth Fusion Systems, MIT’s Plasma Science and Fusion Center and others are working to build SPARC, a prototype device that aims to extract net energy from plasma and generate fusion power, reports Philip Ball for Scientific American. “SPARC will be a midsize tokamak in which the plasma is tightly confined by very intense magnetic fields produced by new high-temperature superconducting magnets developed at MIT and unveiled in 2021.”
Boston Globe reporter Hiawatha Bray highlights a number of MIT startups that are focused on tackling climate change. “Boston has long been a center of clean energy, driven by innovations spinning out of the Massachusetts Institute of Technology and other universities,” writes Bray.
Ubiquitous Energy, an MIT startup, has created a transparent photovoltaic glass coating, called UE Power, that can turn any surface into a tiny solar panel, reports Teodosia Dobriyanova for Mashable. “The company, however, is prioritizing the use of UE Power on windows in an attempt to help buildings reduce their colossal climate footprint,” writes Dobriyanova.
Professor Yet-Ming Chiang of the Department of Materials Science and Engineering (DMSE) talks to NOVA’s Miles O’Brien about his research aimed at closing gaps in renewable energy availability when there’s no sun or wind. Through their company, Form Energy, Chiang and William Woodford PhD ’13 have developed iron-air batteries that can store electricity for up to 100 hours. “This is something that just a few years ago was considered impossible,” Chiang explains.
“The Sun Queen,” a new documentary on PBS, will highlight the life of the late former MIT Prof. Mária Telkes and her work in developing solar energy. Telkes is known for her “work on the 1948 Dover Sun House, a solar-heated model home created by an all-female team,” reports Erin Blakemore for The Washington Post.