There’s no shortage of battery companies battling with Tesla for market share. Outfits around the world are building out battery capacity to fill the needs of automakers and energy storage developers alike — so much so that overcapacity has led to lower battery prices.
Still, a year-old, L.A.-based battery company called Romeo Power thinks its future looks very bright, thanks to a unique combination of talent, materials, and techniques that it claims enables the company to achieve at least 25 percent more energy density — and sometimes upwards of 200 percent more — than existing lithium ion battery packs. In fact, its very tagline is: “The world’s most energy dense battery packs.”
It’s a bold claim, and one that skeptics will surely dismiss as little more. But Romeo has a number of things working in its favor. For starters, cofounder and CEO Mike Patterson has previously founded — and sold — three companies, including InAuth, a mobile authentication and fraud detection company that American Express bought last year for undisclosed terms.
The 190-person company also features a number of veterans of SpaceX, Samsung, Tesla, and Amazon, so there’s institutional know-how about manufacturing, procurement, design, and about battery packs specifically. Indeed, cofounder and CTO Porter Harris spent a year at Faraday Future as its chief battery architect; before that, he spent four years at SpaceX as an energy storage engineer. In fact, Porter has been working on batteries for the last decade, dating back to an earlier engineering gig at The Aerospace Corporation, in Southern California.
Not last, Romeo is also fueled by capital. Specifically, it just closed on $30 million in seed funding — all of it from its management team, unnamed family offices, and past shareholders who’ve invested in Patterson’s startups and “were willing to throw into the next one,” he says. (Asked if he has something against venture capitalists — or vice versa — Patterson says that’s not the case. “I’m not saying we won’t raise venture in the future, but not now.”)
Of course, its strongest raison d être is the market, which has grown as lithium-ion batteries have fallen in price and grown more competitive with the lead-acid batteries on which automotive companies have long relied. That affordability has maed them attractive for a wide variety of applications, from electric cars, to tablets, to drones, to automated factory robots.
The catch for Romeo, of course, is proving that its batteries can do all that the company says they can.
Apparently, one has to see them to believe them.
Asked about Romeo’s secret sauce, Harris readily admits that the firm doesn’t make its own battery cells, buying them instead from companies like LG, Sony, and Samsung. What it does better than anyone else, he insists, is package them in the most efficient manner possible, while also being able to produce them a lot faster than competitors.
Patterson elaborates on the point, telling us, “The [battery] cells are a commodity, it’s true. But you have to know, of the hundreds of cells [available to buy], which is the best for a particular application. Then you have to get as many cells as you can into the smallest space possible, to create volumetric density. Then,” he says, “to keep the cells from getting too hot, you need to put them in the right container and use the right materials and connect them using the right materials and methods.
“Finally,” Patterson continues, “you need to keep the whole thing cool, so you need a thermal system, then the firmware and software and battery system to manage the whole thing.”
In short, anyone is welcome to take apart what Romeo is building, but good luck putting it together again.
Is that process enough to sway big customers? Unsurprisingly, the company says it is. According to Patterson, Romeo has booked $65 million in manufacturing contracts with its 15 customers, including five automotive companies — two of which are among the “big three” in Detroit, he says, referring to Ford, General Motors and Fiat Chrysler.
Asked how Romeo turns a lead into a sale, Harris suggests that — since the L.A. Times wrote about the company earlier this year — much of the interest has been inbound. “We contact people or they contact us. We ask them how much room they have to work with, and we bring them into our factory,” a 113,000-square foot facility a couple of miles east of downtown L.A. “Then we’ll do a design for them, and if they want us to build a prototype, we will for a charge. We just tell them if they use the design and decide to manufacture it, they have to us the contract.”
Adds Patterson, who says the next frontier for Romeo is stationary storage, “The first half of this year was just building prototypes and demos for everyone and their brother.”
This half, he says, “Those are turning into orders.”