
Arcturus could halve the grid’s electrical losses using its nano-infused copper
Quick Answer
Arcturus aims to halve electrical losses in grids by infusing copper and aluminum with carbon nanomaterials, potentially unlocking 3-10% more electricity.
Quick Take
Arcturus aims to halve electrical losses in grids by infusing copper and aluminum with carbon nanomaterials, potentially unlocking 3-10% more electricity. The startup has raised $8 million to scale its production for applications in drones, robotics, and data centers.
Key Points
- Infusing copper and aluminum with carbon nanomaterials can reduce heat loss by 50%.
- The technology could provide an additional 3% to 10% electricity during peak demand.
- Arcturus raised $8 million in seed funding from Initialized Capital and others.
- Materials are designed as drop-in replacements for existing copper and aluminum applications.
- Potential applications include lighter drones, more efficient EVs, and reduced cooling needs for data centers.
📖 Reader Mode
~3 min readThe world uses a lot of copper, but thanks to the energy transition and data centers, it’ll need a lot more. Between now and 2050, we’ll have to produce more copper than has been mined throughout all of human history, according to one study.
Plenty of that copper — and even more aluminum — ends up in the electrical grid, which in the U.S. is showing its age.
“We’re hitting this inflection point of AI and the electrification of nearly every industry, and it’s creating this point where we have overburdened and overstressed the energy grid,” Amir Mashal, founder and CEO of Arcturus, told TechCrunch.
One option is to throw more metal at the problem, but Mashal said his startup, which has been operating in stealth, offers an alternative. Arcturus can reduce the amount of energy that electrical conductors lose to heat by infusing carbon nanomaterials into copper and aluminum using lasers. Replacing traditional metal with Arcturus’s material would allow the same size power lines to carry more electricity.
In practical terms, that could cut losses on the electrical grid in half, which would immediately unlock around 3% more electricity on average and up to 10% more during the most congested times, when the grid arguably needs it most. At the low end, that’s about a year’s worth of demand growth in the U.S.
“Copper loses conductivity as it heats up, so the hotter it gets, the more energy it wastes as heat,” Mashal said. “As I kept peeling back the layers of that onion, everything kind of started clicking to me because I noticed the same limit shows up everywhere. The modern world really runs on metals.”
While the grid is the ultimate destination for a materials startup like Arcturus, the company is starting smaller with drones, robotics, and, yes, data centers, where a few percentage points more electricity can have an outsized impact.
The company exclusively told TechCrunch that it raised $8 million in a seed round led by Initialized Capital with participation from Toyota Ventures, Breakthrough Energy Discovery, 1517, and Wireframe Ventures.
Mashal has been quietly refining his materials in a garage in Malibu, California, where he’s currently able to produce several centimeters of wire as a proof of concept. With the new funding, he plans to ramp up to tens of meters so that the nano-infused materials can be tested in various applications, including windings in electric motors and busbars in power distribution equipment.
Though the materials’ properties are new, Mashal said they’re engineered to be a “drop-in replacement” in existing copper and aluminum applications. “Same form factors, no system redesign, no new training for folks to handle or crimp the material.”
Arcturus’ materials could make for lighter drones or more efficient EVs. By reducing the amount of energy lost to heat, they can also reduce data centers’ needs for cooling.
“All those industries have the same kinds of bottlenecks, whether your drone wants to have double the flight time or your graphics card is just heating up too much,” Mashal said. “Those are all areas where our material can fundamentally disrupt things.”
Update 1:40 pm ET: Clarifies that aluminum, in addition to copper, ends up in the electrical grid.
When you purchase through links in our articles, we may earn a small commission. This doesn’t affect our editorial independence.
Tim De Chant is a senior climate reporter at TechCrunch. He has written for a wide range of publications, including Wired magazine, the Chicago Tribune, Ars Technica, The Wire China, and NOVA Next, where he was founding editor.
De Chant is also a lecturer in MIT’s Graduate Program in Science Writing, and he was awarded a Knight Science Journalism Fellowship at MIT in 2018, during which time he studied climate technologies and explored new business models for journalism. He received his PhD in environmental science, policy, and management from the University of California, Berkeley, and his BA degree in environmental studies, English, and biology from St. Olaf College.
You can contact or verify outreach from Tim by emailing tim.dechant@techcrunch.com.
— Originally published at techcrunch.com
Want this in your inbox every morning?
Daily brief at your local 8am — bilingual EN/中文, free.
More from TechCrunch
See more →
Qualcomm wants to be the chip inside whatever replaces your smartphone, and it just announced two products toward that end
Qualcomm is developing over 40 new AI hardware designs aimed at becoming the core technology in devices that will replace smartphones. This strategic move highlights Qualcomm's ambition to lead in the next generation of mobile computing, focusing on AI integration across various platforms.

