News
VW prepares to spend first $300M of $2B on EV charging infrastructure project
Volkswagen will designate $300 million by 2019 to establish a network of more than 450 electric vehicle charging stations in 11 U.S. major metropolitan areas and along high traffic highways. The announcement came this week through Volkswagen’s new wholly owned subsidiary called Electrify America, which will support increased use of zero emissions vehicles (ZEVs) in the U.S.
The initiative is part of the Federal Trade Commission agreement with Volkswagen to compensate for “Dieselgate,” the systematic and willful deceit of U.S. emissions regulators through special software in Volkswagen’s diesel vehicles. Electrify America is a product of Volkswagen’s 2016 court settlement with the California Air Resources Board and the U.S. EPA. We recently reported that the VW emissions scandal has given life to a new generation of electric vehicle start ups like Rivian Automotive. The Illinois-based electric car company has leased land to a logistics company that’s using the space as a temporary holding area for the Dieselgate VWs. Teslarati commissioned a videographer to capture drone shots showing roughly 14,000 affected cars waiting to be disposed of as a result of the scandal.

Thousands of VW Diesels being Stored at Rivian Factory, Photo: Jim Finch for Teslarati
Electrify America will support and promote greater availability of customer-friendly infrastructure in areas with high demand for ZEVs. With hundreds of stations with non-proprietary chargers across the U.S., Electrify America‘s first National ZEV investment cycle will make it easier and faster for millions of Americans to charge their electric vehicles while also “encouraging more drivers to explore and embrace electric driving.”
Electrify America‘s first stage plans
Electrify America has released information through a press release and website that it will establish a network of 2,500+ non-proprietary electric vehicle chargers at more than 450 station sites.
- Approximately 240 charging station sites will be installed or under development outside of California by the end of the first cycle.
- These sites will be located along high-traffic corridors between metropolitan areas, including multiple cross country routes.
- They will include between four and ten 150 kW and 320 kW individual DC fast chargers at each location.
- Charging sites will be present in 39 U.S. states.
- They will be built along corridors with a high correlation with the EV Charging Corridors recently designated by the Federal government.
- Sites will be, on average, about 66 miles apart, with no more than 120 miles between stations.
Comparisons to Tesla’s Supercharger network
The extent and speed of Electrify America‘s planned installation schedule roughly parallels the early years of Tesla’s DC Supercharger network in the U.S., which began in late 2012.
The new Electrify America chargers will be non-proprietary. Tesla vehicles use a proprietary plug design, although the company sells compatible adapters. Tesla’s DC CHAdeMO adapter is limited to 50 kilowatts of power.
With proposed charging power set at 320 kilowatts, the Electrify America network would be the first high power contender, at scale, to the Tesla Supercharger network. Tesla is the only EV manufacturer right now capable of charging vehicles at up to 120 kW, which equates to about 170 miles of range in as little as 30 minutes. Tesla has built a fast DC Supercharger network that supports maximum theoretical charging rates of up to 145 kilowatts, according to the company’s website.
The Electrify America network will provide 2500+ chargers at more than 450 stations. At this writing, Tesla Superchargers are at over 2,200 charging stalls at 350 locations across the U.S.
The proximity of Electrify America‘s chargers along frequently traveled corridors means that many shorter range ZEVs available today will be able to use this network. Most Tesla sites are located along highways away from large metropolitan areas and are primarily intended for use by travelers on long-distance trips.
It seems likely that the Electrify America chargers will be located in existing public infrastructure like rest stops. Tesla has a growing network of Destination Charging Partners with dedicated Tesla Wall Connectors at their properties. The company’s website describes how these are primarily destinations where a Tesla owner would stay for several hours at a time, such as ski resorts, restaurants, hotels and others. They are safe, well-lit, and infuse a feeling of security when Tesla owners need to recharge their vehicles.
Electrify America stations will be designed to support many existing and anticipated charging technology needs, including evolving industry standards like the Combined Charging Standard (CCS) and the Open Charge Point Protocol. Last year, Tesla joined the European CharIN consortium that is leading the development of CCS.
Tesla reminds its owners that there are many factors that affect the actual charge rate, including ambient temperature, utility grid restrictions, and charging traffic. Tesla constantly incorporates owner feedback into its maintenance and research and development efforts, offering a distinct consumer experience for Tesla owners who use its Superchargers.
News
Tesla confirms crucial detail of Miami Robotaxi launch
Tesla has confirmed a crucial detail of its Miami Robotaxi launch, stating that the fleet is operating on an Unsupervised basis, joining a few other cities where company employees do not watch over the vehicles from inside.
Tesla’s Head of AI, Ashok Elluswamy, confirmed the detail on X, answering a highly speculated question about the Robotaxi Service in Miami, which was launched on June 3:
Unsupervised
— Ashok Elluswamy (@aelluswamy) July 3, 2026
The first launch of Robotaxi in Florida, Miami presents a unique opportunity for Tesla as it is operating the Unsupervised Robotaxi ride-hailing service in a major tourist hotspot in the Sunshine State. It also signals the suite will expand to other cities soon; many have requested Orlando, a heavy tourist spot with Disney and other resorts nearby, get access to the program soon as well.
Miami is getting a conservative rollout as well, just as Tesla has done with other cities. The initial geofence covers a compact 10–14 square mile zone in western Miami-Dade County, primarily West Miami extending toward Doral and Sweetwater. It is bounded roughly by SR-826 (Palmetto Expressway) to the north and US-41 (Tamiami Trail) to the south, excluding downtown Miami, Miami Beach, the airport, and most of Coral Gables.
Tesla has also been pretty slim on other details. For example, Tesla has not disclosed the exact fleet size, but field reports and license plate tracking indicate just two unsupervised Model Y vehicles were active on launch day, increasing to three within 48 hours.
According to The Road to Autonomy, a nearby staging lot near Miami International Airport holds dozens of Cybercabs alongside additional Model Y units, suggesting capacity for rapid scaling as demand and data collection grow.
The confirmation of Robotaxi being Unsupervised carries immense weight. It establishes that Tesla’s Miami Robotaxi operations run without human safety drivers or remote supervision, relying entirely on the company’s Full Self-Driving technology. Miami becomes the second major U.S. city after Austin to offer unsupervised Robotaxi rides from day one.
The move reflects rapid progress in Tesla’s AI efforts. Neural networks trained on vast real-world data now handle complex urban environments, including South Florida’s heavy traffic, pedestrians, and rainy conditions. Industry observers see it as validation of Tesla’s vision-centric, data-driven approach versus traditional rule-based systems; a truly unorthodox approach in this day and age.
Challenges remain, including regulatory oversight, public trust, and scaling the fleet to match geofence ambitions. Miami’s small initial footprint and limited vehicles highlight a deliberate, measured expansion strategy focused on safety and data gathering.
Nevertheless, the unsupervised confirmation marks a pivotal milestone. It showcases technical readiness and advances Tesla’s vision of transforming vehicles into autonomous revenue generators while reshaping urban mobility. For Miami users, driverless transportation has moved from concept to reality.
News
Radiologist who drove Tesla off cliff has attempted murder charges dismissed
A California radiologist who drove his Tesla Model Y off a 250-foot cliff in an attempt to kill his family has had his charges dismissed after doctors say he is “doing well” in a mental health program.
Dharmesh Patel was charged with three counts of attempted murder in connection with a January 2023 crash where he drove his Tesla off a cliff, injuring his wife and two children, aged 7 and 4 at the time.
Patel drove the Tesla off Devil’s Slide in California, an area that is extremely rough to the point that investigators and rescuers expected the worst when arriving at the scene for the first time. Patel supposedly had schizoaffective disorder, according to Deputy District Attorney Dominique Davis.
Shockingly, Patel’s wife, who was in the vehicle, testified that she did not want her husband to be prosecuted, noting that their children missed their father and they wanted him to come back home. Patel’s attorney argued, “not everyone who commits a crime is a criminal.”
Doctor who took Tesla off cliff gets support from unlikely person
A three-day trial in Mental Health Diversion Court ruled in Patel’s favor, which kept him out of jail and instead on house arrest. He was admitted to a Mental Health Diversion Program, which he successfully completed, the Associated Press reported. San Mateo County District Attorney Steve Wagstaffe said the judge was “required by law” to dismiss the charges:
“If the person who’s given mental health diversion follows the treatment plan, there’s nothing that can be done, and at the end of the two years he gets it wiped out of his record.”
Wagstaffe said he has argued, along with other DAs in California, to have attempted murder removed from the list of charges eligible to be dismissed due to mental health diversion programs.
Patel had the charges officially dismissed on Monday; his wife waited for him as he left court and they departed the building together, according to Mercury News. Patel surrendered his California medical license in December.
The crash has been one of the best examples of Tesla’s incredible engineering, which has saved four lives in this particular instance. The car was totalled but kept the four human beings alive and safe, which is something that many referred to as “an absolute miracle.”
News
Tesla battery recycling efforts increased 20 percent last year
A common misconception of anti-EV proponents is that the batteries used in the vehicles are detrimental to the environment and that they cause more waste than they are worth. But a look at Tesla’s battery recycling efforts last year shows the company is doing more than ever to recover materials and give portions of the cells a second life.
Tesla reported a significant milestone in its sustainability efforts last year, with battery recycling volumes rising 20% compared to 2024. According to the company’s 2025 Impact Report, Tesla recycled over 14,000 metric tons of battery material through a combination of in-house processing at its Gigafactories and collaborations with third-party recycling partners.
Tesla: “In 2025, we recycled over 14,000 metric tons of battery material through a combination of in-house processing and through our network of recycling partners.”
That’s equivalent to 46,000 long-range battery packs, a +20% increase from 2024. pic.twitter.com/TC3Nz7Kaqf
— Sawyer Merritt (@SawyerMerritt) July 7, 2026
This amount of recovered material is equivalent to the resources needed to produce approximately 46,000 long-range battery packs. The increase reflects growing operational scale as Tesla’s global vehicle fleet expands and more batteries reach end-of-life or manufacturing scrap becomes available for processing.
Tesla and Battery Recycling
Battery recycling forms a core part of Tesla’s circular economy strategy. The company designs its batteries for longevity, often exceeding 200,000 miles of driving, and prioritizes repairs, remanufacturing, and second-life applications before full recycling.
Once packs are decommissioned, Tesla ensures 100% are recycled with no materials sent to landfills. This approach recovers critical metals including lithium, nickel, cobalt, and copper, which can be refined and reused in new battery production.
Tesla has advanced hydrometallurgical recycling processes capable of achieving recovery rates up to 98% for key battery metals. These methods are more efficient and environmentally friendly than traditional pyrometallurgical techniques, reducing energy use and enabling higher-purity materials suitable for direct reintegration into battery manufacturing.
Tesla co-founder JB Straubel confirms Redwood’s battery recycling operations are already profitable
In-house capabilities are supplemented by a network of specialized partners, creating a robust system that handles both production scrap and end-of-life packs.
The environmental and economic benefits are substantial. Recycling reduces reliance on virgin mining, lowers the carbon footprint associated with raw material extraction and processing, and helps stabilize supply chains for critical minerals amid rising global EV demand. As millions of Tesla vehicles age, the volume of recyclable material is expected to grow significantly in the coming years.
This 20% year-over-year growth demonstrates the effectiveness of Tesla’s investments in recycling infrastructure and technology. It positions the company as a leader in addressing one of the automotive industry’s major sustainability challenges. Continued innovation in battery design for easier disassembly and higher recyclability will further enhance these efforts.
Overall, Tesla’s progress in 2025 highlights how scaling recycling operations supports both environmental goals and long-term business resilience in the transition to electric mobility. As the EV market matures, such closed-loop systems will become increasingly vital for sustainable growth.