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Forbes

Prof. Emeritus Donald Sadoway co-founded Boston Metal, an MIT startup that has developed a carbon-free steel manufacturing process, reports Amy Feldman for Forbes. “Boston Metal’s process – which uses an electricity conducting, molten-metal proof anode to liquify iron ore, separating the pure metal without harmful byproducts – allows factories to create carbon-free steel as long as they use a clean energy source, such as hydroelectric power,” explains Feldman. “It also can create steel from lower-grade ores rather than relying on scarce high-grade ones. That’s an important advantage in terms of both cost and availability compared to other methods of making green steel, according to the company.”

Fast Company

Fast Company reporter Adele Peters spotlights Boston Metal – an MIT startup that uses electrolysis to heat iron ore and create liquid steel without releasing carbon emissions. “If the process runs on renewable energy, the steel is zero-emissions,” explains Peters. “The same technique can be used to extract other valuable metals from mining waste.”

The Boston Globe

Boston Globe reporter Hiawatha Bray spotlights WiTricity, an MIT spinoff that designs wireless charging systems. “WiTricity uses magnetic fields rather than cables to give batteries a boost,” explains Bray.

CNBC

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.

Mashable

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.

WBUR

Prof. Christopher Knittel speaks with Radio Boston host Tiziana Dearing about how high electric bills are impacting efforts to address climate change. The current artificial inflation of the volumetric rate “makes electrification hard, it makes it more expensive,” notes Knittel. “As we, as a Commonwealth, want to move toward electrification, it’s a big headwind that is going to push against our climate goals,” says Knittel. 

The Boston Globe

In an opinion piece for The Boston Globe, Prof. Christopher R. Knittel explains why electricity bills in Massachusetts can be so high and how to address the issue. “State law requires Massachusetts to cut greenhouse gas emissions relative to 1990 levels by 50 percent by 2030 and by 85 percent by 2050,” writes Knittel. “In short, we need to replace gasoline and natural gas with electricity. But how we price electricity is making this effort to address climate change harder." 

CNBC

Boston Metal, an MIT startup, has developed a way to generate steel without releasing carbon dioxide emissions, reports Catherine Clifford for CNBC. The company “plans to begin construction of a demonstration steel plant in 2024 and a commercial sized plant in 2026,” says Boston Metal CEO Tadeu Carneiro.

Associated Press

MIT startup Boston Metal is developing technology to decarbonize steel production, reports Ed Davey for the Associated Press. “Boston Metal said it can eliminate all carbon dioxide from its steel production and hopes to ramp up production to millions of tons by 2026,” writes Davey.

The Boston Globe

Boston Metal, an MIT startup, is working to transition the steel industry from coal-based fuel to sustainably produced electricity, reports Scott Kirsner for The Boston Globe. The “key to making iron and steel production less environmentally damaging is getting access to sustainable power from wind, solar, hydro, or nuclear, and finding ways to store that power to use when it’s needed, such as in large-scale batteries,” explains Kirsner.

Fortune

This summer’s heat waves and droughts have brought forth a series of issues including disruption of crop production, further inflation, and electrical issues, reports Colin Lodewick for Fortune. “I think it’s too early to quantify, but I have no doubt that these extreme events are contributing to high prices,” says Sergey Paltsev, deputy director of MIT’s Joint Program on the Science and Policy of Global Change. “In the future, if we don’t change the course of action, it’s going to be worse.” 

Popular Science

Prof. Yet-Ming Chiang and his colleagues are developing a new, inexpensive iron-air battery technology that could provide multi-day storage for renewable energy by 2024 through their startup Form Energy, reports Anuradha Varanasi for Popular Science. Chiang explains that “the battery can deliver clean electricity for 100 hours at a price of only $20 kilowatts per hour – a bargain compared to lithium-ion batteries, which cost up to $200/kWh,” writes Varanasi.

CNBC

Ubiquitous Energy, an MIT startup, is developing technology to transform windows into surfaces that capture solar energy, reports Catherine Clifford for CNBC. “Ubiquitous makes a coating for windows that uses semiconducting materials to convert sunlight into electricity,” writes Clifford. “The coating is just nanometers thick and tiny wires connect the solar window to electrical systems where the energy is used.”

Fast Company

MIT startup Ubiquitous Energy has created transparent solar panels that can also generate electricity, reports Adele Peters for Fast Company. “The windows, with two panes of glass that are sealed together, have wires that can be connected either directly to something next to the window – such as a light or electronic blinds – or connected to a battery in the building or back into the electric grid,” writes Peters.

The Boston Globe

MIT scientists have concluded that nuclear fusion can be used to power electricity grids within the next decade, reports David Abel for The Boston Globe. “It may sound like science fiction, but the science of fusion is real, and the recent scientific advancements are game-changing,” says Dennis Whyte, director of the MIT Plasma Science and Fusion Center.