The US Department of Energy just invested $82 million in 19 innovative projects in 12 states to boost US solar manufacturing and recycling.
As part of that $52 million in funding, $10 million will come from the Bipartisan Infrastructure Law to strengthen the US domestic solar supply chain, and $30 million will be put toward technologies that will help integrate solar energy into the grid.
The investment will help promote cheaper, more efficient solar cells and advance cadmium telluride and perovskite solar manufacturing.
During the Biden administration, more than $5 billion in private-sector domestic solar manufacturing investments have been announced. The US is now on track to increase domestic solar panel manufacturing capacity eightfold by the end of 2024.
The Biden administration has set a goal of achieving a 100% clean electricity grid by 2035 and reaching net zero by 2050 to adhere to the Paris Agreement.
Here’s a sampling of some of the projects, and you can see all of them here on the DOE website.
Solar panel recycling
Eight projects will focus on reducing the cost and increasing the efficiency of panel recycling processes. For example:
Solar panel recycler Solarcycle received $1.5 million to work with the National Renewable Energy Lab to research how to extract higher-quality and higher-purity metals and materials from recycled solar panels for reuse in domestic solar manufacturing.
The University of California Berkeley also received $1.5 million to develop materials to selectively remove a variety of metals from solar PV for reuse and recycling.
Ramping up US solar manufacturing
Two projects in Ohio will use $16 million in funding to work on increasing the domestic manufacturing of cadmium telluride PV technologies, the second most common PV technology after silicon. For example:
First Solar will use $7.3 million to develop a tandem module combining cadmium telluride and silicon – a new, more efficient residential rooftop solar product.
Toledo Solar will use $8.8 million to demonstrate the application of semitransparent cadmium telluride solar panels to windows – that is, a potentially whole new market for thin-film solar.
Seven projects will work to bring solutions to the prototype phase and steer them to commercialization. For example:
Mirai Solar received $1.4 million to further develop and commercialize a foldable PV solar screen with variable shading and output power for controlled environment greenhouses.
LITESPEED Energy will use $1.6 million to improve floating solar, making it more resilient to wind and waves.
Boosting solar technology innovation
Two projects received $18 million to bring together teams from academia, industry, and national labs to address the issues in perovskite solar cell devices that limit their durability, scale-up, and efficiency:
The Massachusetts Institute of Technology got $9 million to bring together industry and academic partners to design, build, and test commercially relevant tandem solar cells that combine silicon and perovskite PV materials.
University of Colorado Boulder got $9 million to design and build tandem silicon-perovskite solar cells, comparing different manufacturing methods for the perovskite layer to minimize cost and maximize efficiency and durability. Four universities, the National Renewable Energy Laboratory, and three US perovskite companies will work together.
Funding for grid management
$30 million is being awarded to projects that address emerging challenges for grid planning operators and engineers to plan the future of the electric power grid and maintain its daily reliable operation.
US Senator John Hickenlooper (D-CO) said about today’s DOE solar investment:
We’re accelerating toward a clean energy future by spurring domestic manufacturing, establishing a resilient supply chain, and creating jobs – all with a “Made in America” sticker on it. Giddy-up!
Now is a great time to begin your solar journey so your system is installed in time for those sunny spring days. If you want to make sure you’re finding a trusted, reliable solar installer near you that offers competitive pricing, check out EnergySage. EnergySage is a free service that makes it easy for you to go solar. They have hundreds of pre-vetted solar installers competing for your business, ensuring you get high-quality solutions and save 20 to 30% compared to going it alone. Plus, it’s free to use and you won’t get sales calls until you select an installer and you share your phone number with them.
Your personalized solar quotes are easy to compare online and you’ll get access to unbiased Energy Advisors to help you every step of the way. Get started here.– ad*
FTC: We use income earning auto affiliate links.More.
Tesla’s top battery cell supplier, CATL, is throwing some cold water on Tesla’s battery plans and the CEO even said that Elon Musk “doesn’t know how to make battery cells.”
Contemporary Amperex Technology Co., Limited (CATL) had an incredible rise and became the world’s largest producer of battery cells for electric vehicles in the last few years – and by a significant margin.
It even supplies Tesla with many battery cells for its EV production at Gigafactory Shanghai.
CATL’s success has made Robin Zeng, its founder and chairman, one of the foremost authorities on battery cell production, which makes his new comments on Tesla’s battery cell production effort interesting.
Tesla buys most of its batttery cells from suppliers, inlcuding CATL and Panasonic, but it has also launched its own effort to produce its own cylindical 4680 battery cells, which are currently only used in the Cybertruck.
Zeng spoke to Reuters recently and reported that he had a discussion with Musk earlier this year when he visited China. The CATL founder warned Musk that he thinks Tesla’s 4680 effort will fail:
Zeng said he had told Musk directly that his bet on a cylindrical battery, known as the 4680, “is going to fail and never be successful.”
The CATL founder, who has a PhD in physics, was also unimpressed with Musk’s electrochemistry knowledge when debating Tesla’s 4680 batteyr cell effort:
“We had a very big debate, and I showed him,” Zeng said. “He was silent. He doesn’t know how to make a battery. It’s about electrochemistry. He’s good for the chips, the software, the hardware, the mechanical things.”
In this interview, Zeng was very candid about his chat with Musk. He even touched on Musk’s notirous issues with timelines.
He commented:
“His problem is overpromising. I talked to him,” Zeng said. “Maybe something needs five years. But he says two years. I definitely asked him why. He told me he wanted to push people.”
This has been the excuse that many Musk fans have been using to justify his missed timelines: he is trying to motivate his troups.
Electrek’s Take
I am surprised that the head of a supplier would talk about the CEO of one of his main customers like that.
Obviously, he is biased since Tesla’s battery effort could cut into his business, but at the same time, Tesla has always made it clear that they would always need to keep buying from battery suppliers.
I think what is most interesting here is that CATL’s expertise is in LFP cells and we know that Tesla is looking to make its own LFP cells at one point. That might be what Zeng is talking about here.
With that said, Tesla did claim that it is on the verge of accomplishing its cost target with the 4680 cell. It might be true, but I have issues believing some of the things Tesla claims these days.
FTC: We use income earning auto affiliate links.More.
Kia is hitting the brakes on production of its first three-row electric SUV in the US. Despite the EV9’s successful debut, new concerns about the EV tax credit are reportedly causing Kia to scale back — at least for now.
After another record-breaking US sales month in October, Kia said the impressive growth is driven by “strong demand” for its electrified lineup.
Kia sold over 69,900 vehicles last month, up 16% from the previous record in October 2023. Electric vehicles (EVs) led the growth, with sales surging 70% year over year (YOY). Plug-in hybrid (PHEV) and hybrid (HEV) sales were up 65% and 49%, respectively.
One of the biggest factors behind Kia’s growing sales numbers is the addition of its first three-row electric SUV, the EV9.
After delivering the first models last December, Kia has already sold nearly 18,000 EV9s in the US through October. That’s even more than its first dedicated electric vehicle, the EV6, with around 17,700 models sold through the first ten months of 2024.
Despite the early success, Kia reportedly plans to slow output due to new concerns over the federal EV tax credit.
Kia slowing EV9 output in the US over EV tax credit rules
According to The Korea Herald, Hyundai Motor Group is slowing Kia EV9 output at its new $7.6 billion EV manufacturing plant in Georgia.
After kicking off production at its massive new Hyundai Motor Group Metaplant America (HMGMA) just last month, EV9 output is already being put on the back burner.
Industry sources said Hyundai produced just 21 EV9s in the third quarter. Only one of those was sold in the US. Meanwhile, Kia is still selling an average of 1,800 EV9 models each month.
Most EV9 models, even those for the US, are still built at Kia’s manufacturing plant in Korea. In addition, SK On manufactures its battery cells in China.
Because of this, the three-row electric SUV only qualifies for a partial $3,750 tax credit. “The EV9 is ineligible to benefit from the full IRA benefits due to the battery issue, along with other factors, including price,” A Kia official explained.
Although EV9 prices start at around $55,000, premium trims, like the GT-Line model, cost upwards of $80,000, which exceeds the IRA threshold for SUVs and pickups ($80,000).
2025 Kia EV9 Trim
Starting Price*
Light Standard Range
$54,900
Light Long Range
$59,900
Wind
$63,900
Land
$69,900
GT-Line
$73,900
2025 Kia EV9 price by trim (*excluding $1,325 destination fee)
Hyundai is fast-tracking production at its battery cell plant in GA with SK On to gain compliance. The plant is expected to have a 35 GWh annual capacity, enough for over 500,000 EVs. The Korean automaker is building another battery plant with LG Energy in GA with an expected 30 GWh annual capacity.
With President-elect Trump’s transition team reportedly planning to kill the EV tax credit, things could get more complicated next year.
“Reducing the EV subsidy could effectively end benefits for foreign automakers with US facilities,” Kim Pil-su, a car engineering professor at Daelim University, explained. If this is the case, Kia will likely need to boost incentives.
Kia’s EV9 is already among the most discounted EVs in the US. According to Motor Intelligence, EV9 average discounts reached over $18,000 this summer.
The company is currently offering $7,500 in Customer Cash, a $1,500 offer for Tesla owners and lesseees, and an up to $1,000 Season of New Traditions Retail Cash Bonus.
Tesla (TSLA) is soaring in anticipation that Trump’s administration will make an easier path for Tesla’s self-driving tech, which still doesn’t work, to be approved federally.
Currently, self-driving technology is addressed at the state level, with each state having its own regulations for approving self-driving systems on its roads.
During a conference call following Tesla’s last earnings results, CEO Elon Musk, who has been financially backing the reelection of Donald Trump and “fully endorsed” him, hinted that he could work with the new federal government to get a federal self-driving approval process going.
Now, Bloomberg reports that Trump’s transition team is discussing making it a priority:
Members of President-elect Donald Trump’s transition team have told advisers they plan to make a federal framework for fully self-driving vehicles one of the Transportation Department’s priorities, according to people familiar with the matter.
This news sent Tesla’s stock up 7%, or an increase of 470 billion in value.
That’s surprising because before now, the regulatory aspect of Tesla’s self-driving effort didn’t seem like the biggest hurdle – making the technology work still seems to be the biggest hurdle.
Tesla has been wrong about its self-driving timeline too many times to count, but the latest one is to release unsupervised self-driving in California and Texas in Q2 2025.
Tesla has not released any data about its self-driving effort, and therefore, the best data available is crowdsourced. That data currently shows about 241 miles between critical disengagement:
Tesla would need a 2,500x improvement in miles between disengagement to reach a safer-than-human level, which has been the goal before getting regulatory approval.
Electrek’s Take
That sounds like a much bigger hurdle than getting regulatory approval.
I actually agree with the Trump administration that it makes more sense to have a federal framework for approving self-driving systems than at the state level.
But I don’t see how it will help Tesla since there’s no clear path to Tesla achieving a level safer than human with their current approach any time soon.
At the current pace, the 2,500x improvement would take 10 years and we have yet to see a significant acceleration to the pace of improvement.
FTC: We use income earning auto affiliate links.More.