An anonymous reader quotes a report from The Guardian: Swarms of tiny robots, each no larger than a speck of dust, could be deployed to cure stubborn infected sinuses before being blown out through the nose into a tissue, researchers have claimed. The micro-robots are a fraction of the width of a human hair and have been inserted successfully into animal sinuses in pre-clinical trials by researchers at universities in China and Hong Kong. Swarms are injected into the sinus cavity via a duct threaded through the nostril and guided to their target by electromagnetism, where they can be made to heat up and catalyze chemical reactions to wipe out bacterial infections. There are hopes the precisely targeted technology could eventually reduce reliance on antibiotics and other generalized medicines.

[...] The latest breakthrough, based on animal rather than human trials, involves magnetic particles "doped" with copper atoms which clinicians insert with a catheter before guiding to their target under a magnetic field. The swarms can be heated up by reacting to light from an optical fibre that is also inserted into the body as part of the therapy. This allows the micro-robots to loosen up and penetrate viscous pus that forms a barrier to the infection site. The light source also prompts the micro-robots to disrupt bacterial cell walls and release reactive oxygen species that kill the bacteria.

The study, published in Nature Robotics, showed the robots were capable of eradicating bacteria from pig sinuses and could clear infections in live rabbits with "no obvious tissue damage." The researchers have produced a model of how the technology could work on a human being, with the robot swarms being deployed in operating theatre conditions, allowing doctors to see their progress by using X-rays. Future applications could include tackling bacterial infections of the respiratory tract, stomach, intestine, bladder and urethra, they suggested. "Our proposed micro-robotic therapeutic platform offers the advantages of non-invasiveness, minimal resistance, and drug-free intervention," they said.

Google DeepMind has launched Gemini Robotics On-Device, a new language model that enables robots to perform complex tasks locally without internet connectivity. TechCrunch reports: Building on the company's previous Gemini Robotics model that was released in March, Gemini Robotics On-Device can control a robot's movements. Developers can control and fine-tune the model to suit various needs using natural language prompts. In benchmarks, Google claims the model performs at a level close to the cloud-based Gemini Robotics model. The company says it outperforms other on-device models in general benchmarks, though it didn't name those models.

In a demo, the company showed robots running this local model doing things like unzipping bags and folding clothes. Google says that while the model was trained for ALOHA robots, it later adapted it to work on a bi-arm Franka FR3 robot and the Apollo humanoid robot by Apptronik. Google claims the bi-arm Franka FR3 was successful in tackling scenarios and objects it hadn't "seen" before, like doing assembly on an industrial belt. Google DeepMind is also releasing a Gemini Robotics SDK. The company said developers can show robots 50 to 100 demonstrations of tasks to train them on new tasks using these models on the MuJoCo physics simulator.

Ford is moving forward with its $3 billion EV battery plant in Michigan despite political pushback and the potential loss of key U.S. tax credits that make the project financially viable. Axios reports: Ford's argument is that by building batteries using technology licensed from China's leading battery producer, CATL, it is helping to re-shore important manufacturing expertise that was long ago ceded to China. [...] "LFP batteries are produced all around Europe, and the rest of the world," said Lisa Drake, Ford's vice president of technology platform programs and EV systems. "How can we compete if we don't have this technology? Somebody has to take the lead to do this," she said, adding that it will lead to homegrown innovation and the seeding of a domestic supply base. "I'm convinced this is the right thing to do for the United States," she said.

Drake said the tax subsidies are even more important in the face of slower-than-expected EV demand. "When EV adoption slowed, it just became a huge headwind," she said. "The [production tax credit] allows us to keep on this path, and to keep going." "We don't want to back off on scaling, hiring or training in an industry we need to be competitive in the future," she said. "It would be a shame to build these facilities and then have to scale back on the most important part of it, which is the people. These are 1,700 jobs. They don't come along very often."

Consumer tax credits for EV purchases get the most attention, but for manufacturers, the far more lucrative incentives come in the form of production tax credits. Companies could receive a tax credit of $35 per kilowatt-hour for each U.S.-made cell, and another $10 per kilowatt-hour for each battery pack. With an annual production capacity of 20 GWh, Ford's battery plant could potentially receive a $900 million tax credit, offsetting almost one-third of its investment. [...] The Republican-controlled Senate could vote as early as Wednesday on a budget bill that would rewrite language around EV tax credits. A House version of the bill passed last month effectively killed the production tax credits for manufacturers by severely tightening the eligibility requirements. It also specifically prohibited credits for batteries made in the U.S. under a Chinese licensing agreement -- a direct hit on Ford.

An anonymous reader quotes a report from OilPrice.com: China installed its highest solar power capacity for a single month in May, according to official data, which showed mind-boggling figures that the country installed more solar capacity in a month than any other nation did for the entire 2024. With 93 gigawatts (GW) of solar capacity installed in May, China smashed its own record of 71 GW in December 2024, per data from the National Energy Administration cited by Bloomberg.

China's solar capacity additions in May were rushed ahead of a new government policy -- effective June 1 -- to remove pricing protection for solar power projects. Under these protections, solar projects had all but guaranteed profits when they start operations. Another new rule, effective May 1, made connecting rooftop panels to the grid more difficult. These new policies are expected to moderate the growth in solar power additions this summer, analysts say. A separate report notes that China's cumulative installed solar capacity has surpassed 1 TW, according to the National Energy Administration (NEA). "By the end of May 2025, solar capacity had reached 1.08 TW (1,080 GW), up 56.9% year on year," reports pv magazine.

"NEA data show total power generation capacity stood at 3.61 TW at the end of May, an 18.8% increase from a year earlier."

jalvarez13 writes: My venerable HP Officejet Pro 8600 Plus is showing its age and it has become expensive to operate due to the cost of the original cartridges. I tried some alternative cartridges but the printer rejects them.

Now that schools still require kids to print stuff at home (mine are in 2nd and 4th grade), and my wife also needs to use the printer, I think it may be wise to invest in a good-quality printer that has a lower cost per page (maybe laser?).

In that context, I'd love to have unbiased information about brand quality, printing technology, cost efficiency, and other factors that I might have missed. Any thoughts?

New York will construct the first major new U.S. nuclear power plant in more than 15 years, with Governor Kathy Hochul directing the state's public electric utility to add at least one gigawatt of nuclear generation capacity. The New York Power Authority will identify an upstate location and determine reactor design, either independently or through private partnerships.

The project tests President Trump's May executive orders aimed at accelerating nuclear development through regulatory overhaul, expedited licensing, and expanded use of federal lands for reactors. Only five new commercial reactors have come online since 1991, while nuclear capacity has declined more than 4% from its 2012 peak. Potential sites include grounds of New York's three existing plants owned by Constellation Energy. The state is already collaborating with Constellation on federal grant applications for reactor additions at the Nine Mile Point facility in Oswego and studying Ontario's small modular reactor initiatives.

The classic VW bus got an all-electric update — but that was just the beginning. Now there's an autonomous driving version (that's intended for commercial fleets, reports Jalopnik, "a level 4 vehicle that drives set routes" that's "going into full production" as the ID Buzz AD. (The AD stands for "autonomous driving") The AD version sports a longer wheelbase and a higher roofline than its mere human-driven sibling, which helps it to fit in the 13 cameras, nine LiDARs, and five radars that will (hopefully) allow the car to drive without crashing into anybody. These are intended for large-fleet customers providing taxi services, either ones run by local governments or private companies. [Volkswagen Group software subsidiary MOIA] has already lined up its first customer, the German city of Hamburg, which will provide the automated Buzz as a public transit option alongside traditional bus and subway services. If all goes well, after Hamburg MOIA "will bring sustainable, autonomous mobility to large-scale deployment in Europe and the U.S.," according to VW Group CEO Oliver Blume. Down the road, VW has also signed an agreement for rideshare juggernaut Uber to use the ID Buzz AD across America, starting with Los Angeles in 2026.

The ID Buzz AD is the first vehicle in Germany to reach SAE International's threshold for Level 4 autonomous driving, meaning that the car can drive itself, with no need for a driver behind the wheel, within designated areas.
It comes with "a full suite of tools for public and private transit providers," notes the EV news site Electrek. "That includes everything from the self-driving tech to fleet management software, passenger support, and operator training. That will allow cities and companies to launch driverless fleets quickly, safely, and at scale."

And Christian Senger, a member of the board of management of VW Commercial Vehicles, tells DW the vans will be manufactured in very large numbers. The Hannover VW factory is set to produce more than 10,000 commercial vehicles. "We believe we can be the leading supplier in Europe," Senger says.... [Senger] does not expect the top dog of Germany's beleaguered auto industry to make any money, at least at first. In the long term, though, he explains that autonomous driving is the lucrative field of the future, one that promises to be much more profitable than the traditional automotive industry...

The exact price has not yet been announced but the ID. Buzz AD is unlikely to come cheap. According to Senger, buyers will have to pay a low six-figure sum (in euros) per vehicle. That means it's going to be expensive for transport companies. The Association of German Transport Companies or VDV, is calling for a nationally coordinated strategy of long-term financing, and a market launch supported by public funding, to establish the country's supremacy in this market.

U.S. consumers "rank problems with public electric vehicle charging and the time it takes to recharge as their top two reasons for rejecting electric vehicles," writes the New York Times, citing figures from data analytics firm J.D. Power.

But are things getting better? Automakers and charging companies are building new stations and updating their cars to allow drivers to more easily and quickly recharge their vehicles. They're also outfitting charging stations with items such as food and bathrooms, and making the devices more reliable. Because chargers are only as fast as the cars they connect with, automakers are designing new cars to absorb electricity at higher speeds. In addition, many automakers have cut deals with Tesla to allow owners of other cars to use the company's fast-charging network, the largest in the country and widely considered the most reliable.

Early evidence suggests efforts to improve electric vehicle charging are paying off. In recent years, J.D. Power surveys showed about 20% of attempts to charge electric vehicles at all public stations ended in failure because of faulty chargers, long lines or payment glitches. But in the first three months of 2025, overall failure rates fell to 16%, the biggest improvement since the surveys began in 2021. "The industry is finally elevating as a whole," said Brent Gruber, an executive director at J.D. Power.

The number of chargers has also increased. There were about 55,200 fast chargers in the United States in May, up from 42,200 a year earlier, according to federal data.

In February, a former Phillips 66 gas station in Apex, N.C., near Raleigh, became the first "Rechargery" from Ionna, a company created by eight automakers, including General Motors, Hyundai Motors, BMW and Mercedes-Benz. Their chargers can deliver up to 400 kilowatts of juice, much more than Tesla's 250-kilowatt Superchargers. Some cars can replenish a battery in 30 minutes or less at the higher charging speeds. When connected to chargers of 350 kilowatts or more, including those at Ionna and Electrify America, another fast-charging network, a Hyundai Ioniq 5 can fill its electric "tank" from 10% to 80% in 18 minutes...

Some models from BMW, Hyundai and Kia have also enabled a national "Plug and Charge" standard that lets car owners begin charging their vehicles at Ionna stalls without first having to use a smartphone app or swipe a credit card, eliminating a step that sometimes results in errors. Tesla's chargers have long worked this way for Tesla cars and now work with some other vehicles, including Rivian's SUVs and pickups. More cars and charging stations are expected to have plug-and-charge capability in the coming months... Nearly every major automaker is redesigning their cars with plug outlets and software that are compatible with Tesla chargers.
Infrastructure upgrades are happening elsewhere too, according to the article.Texas-based gas chain Buc-ee's is offering "premium" charging using renewable power (working with Mercedes), while Waffle House plans to install BP Pulse fast chargers next year.

J.D. Power's Gruber says that while America's federal charger program only helped construct a tiny fraction of new chargers, it did also published guidelines which helped automakers and charging companies work together and address technical problems.

As recently as 2021, GM "all but eliminated" hybrids from its future product plans, reports the New York Times. "But then a funny thing happened." Car shoppers balked at the high prices of fully electric models and the challenges of charging them. In the last few years, sales of electric vehicles have grown at a much slower rate than automakers once expected. And hybrids have stepped in to fill the gap, accounting for a large and growing share of new car sales... In the first three months of this year, hybrids — including cars that can and cannot be plugged in — made up about 14 percent of all light vehicles sold in the United States, according to the Department of Energy. That was around twice the market share of fully electric vehicles in that period...

Several automakers are slowing the introduction of new electric vehicles, and have accelerated development of new hybrids.
Robb Report looks at the current status of hybrids — and a possible future: "The charging infrastructure in most countries is not yet mature enough to support convenient mass adoption of battery-electric vehicles, and in some territories never will be," says Jonathan Hall, head of research and advanced engineering at U.K.-based consulting group Mahle Powertrain....

Porsche, active in this space since 2010, just hybridized its iconic 911 for this model year. Lamborghini also joined the trend with the debut of its 1,000 hp Revuelto hybrid in 2023. "The company doesn't plan to give up the internal-combustion engine anytime soon," says CTO Rouven Mohr. "We are also considering synthetic fuels to keep ICE vehicles running after 2030."

Hall concurs: "With the emergence of bio-based and even fully synthetic fuels, the link between the ICE and climate change can be broken." Combined with the development of better batteries, this progressive hybrid model could offer the best of both worlds for years to come.

An anonymous reader shared this report from the Washington Post: Over the past three years, companies have invested tens of billions of dollars toward making electric vehicles in the United States, buoyed by tax incentives aimed at helping American businesses compete with China. Now, those companies are facing a strange problem: too much manufacturing capacity, not enough demand.

As sales of electric vehicles slow and congressional Republicans take aim at EV tax credits and incentives, the United States is slated to have more battery and EV manufacturing than it needs, according to a report released Wednesday by the Rhodium Group, a research firm. That could leave factories — many of which are already operating or under construction — stranded if car sales continue to slump. "The rug is being pulled out from under these manufacturers," said Hannah Pitt, a director in Rhodium's energy and climate practice...

After [America's 2022 climate bill], battery investment in the U.S. skyrocketed. Companies went from investing about $1 billion per quarter in 2022 to $11 billion per quarter in 2024. Most of that battery investment went to red states, including in the South's "Battery Belt," where manufacturers were drawn to inexpensive land and a nonunionized workforce. Now, however, that battery boom is teetering. In the first three months of 2025, companies canceled $6 billion in battery manufacturing — a record. EV sales have slowed...

According to the new report, the United States has almost enough battery capacity announced or under development to meet demand all the way to 2030 if EV sales continue to slump. That might sound like a good thing — but if EV sales drop further, it means companies will be left with factories they won't be able to use. At the same time, China has excess battery capacity. The country has enough manufacturing to meet the entire world's demand for batteries — and may be looking to off-load them onto other markets... And if the incentives for using U.S.-made batteries disappear, the nation's manufacturers would be left high and dry.

An anonymous reader quotes a report from MacRumors: To comply with a new regulation that takes effect today, Apple has added an energy efficiency label to its iPhone and iPad pages in EU countries. Apple is also required to start including a printed version of the label with the devices sold there. The label grades a given iPhone or iPad model's energy efficiency from a high of A to a low of G, based on the EU's testing parameters. However, Apple said that certain aspects of the testing methods outlined by the European Commission are "ambiguous," so it chose to be conservative with its scores until testing is standardized.

In a 44-page document (PDF) detailing its testing methodology for the labels, Apple said its current iPhone models qualified for the highest energy efficiency grade of A, but the company voluntarily downgraded these scores to a B as a cautionary measure. The label also provides details about a given iPhone or iPad model's battery life per full charge cycle, repairability grade, impact resistance, ingress protection rating for water and dust resistance, and how many full charge cycles the battery is rated for. Likewise, this information is based on Apple's interpretation of the EU's testing parameters.

On the web, the label can be viewed by clicking or tapping on the colorful little tag icon on various iPhone and iPad pages on Apple's localized websites for EU countries. It is shown on both Apple's main product marketing pages for all iPhone and iPad models that are currently sold in the EU, and on the purchase page for those devices. The label is accompanied by a product information sheet (PDF) that provides a comprehensive overview of even more details, such as the device's battery capacity in mAh, screen scratch resistance based on the Mohs hardness scale, the minimum guaranteed timeframe for availability of security updates, and much more.

Turning recently closed coalmines into solar energy plants could add almost 300GW of renewable energy by 2030, converting derelict wastelands to productive use, according to a new report. From a report: In a first of its kind analysis, researchers from Global Energy Monitor (GEM) identified 312 surface coalmines closed since 2020 around the world, and 134 likely to close by the end of the decade, together covering 5,820 sq km (2,250 sq miles) -- a land area nearly the size of Palestine.

Strip mining turns terrains into wastelands, polluted and denuded of topsoil. But if they were filled with solar panels and developed into energy plants, the report claims, they could generate enough energy to power as big and power hungry a nation as Germany.

An anonymous reader quotes a report from the BBC: The Spanish government has said that the national grid operator and private power generation companies were to blame for an energy blackout that caused widespread chaos in Spain and Portugal earlier this year. Shortly after midday on April 28, both countries were disconnected from the European electricity grid for several hours. Businesses, schools, universities, government buildings and transport hubs were all left without power and traffic light outages caused gridlocks. While schoolchildren, students and workers were sent home for the day, many other people were stuck in lifts or stranded on trains in isolated rural areas.

In the immediate aftermath, the left-wing coalition government did not provide an explanation, instead calling for patience as it investigated. Nearly two months after the unprecedented outage, the minister for ecological transition, Sara Aagesen, has presented a report on its causes. She said the partly state-owned grid operator, Red Electrica, had miscalculated the power capacity needs for that day, explaining that the "system did not have enough dynamic voltage capacity." The regulator should have switched on another thermal plant, she said, but "they made their calculations and decided that it was not necessary."

Aagesen also blamed private generators for failing to regulate the grid's voltage shortly before the blackout happened. "Generation firms which were supposed to control voltage and which, in addition, were paid to do just that did not absorb all the voltage they were supposed to when tension was high," she said, without naming any of the companies responsible. The day after the outage, Prime Minister Pedro Sanchez suggested that private electricity companies might have played a role, saying that his government would demand "all the relevant accountability" from them. However, the new report on the blackout also raises questions about the role of Beatriz Corredor, president of Red Electrica and a former Socialist minister, who had previously insisted that the grid regulator had not been at fault. Aagesen said there was no evidence of a cyberattack behind the blackout. The government also maintained that Spain's renewable energy output was not to blame.

In Tokyo Mitsubishi is deploying "an innovative new battery swap network for electric cars" in a multi-year test program reports the EV news site Electrek.

But it's not just for electric cars. Along with the 14 modular battery swapping stations, Mitsubishi is also deploying "more than 150 battery-swappable commercial electric vehicles" from truck maker Fuso: A truck like the Mitsubishi eCanter typically requires a full night of AC charging to top off its batteries, and at least an hour or two on DC charging in Japan, according to Fuso. This joint pilot by Mitsubishi, Mitsubishi Fuso Trucks, and [EV battery swap specialist] Ample aims to circumvent this issue of forced downtime with its swappable batteries, supporting vehicle uptime by delivering a full charge within minutes.

The move is meant to encourage the transport industry's EV shift while creating a depository of stored energy that can be deployed to the grid in the event of a natural disaster — something Mitsubishi in Japan has been working on for years.
The article's author also adds their own opinion about battery-swapping technology. "When you see how simple it is to add hundreds of miles of driving in just 100 seconds — quicker, in many cases, than pumping a tank of liquid fuel into an ICE-powered car — you might come around, yourself."

In a world first, a research team used 2D materials — only an atom thick — to develop a computer. The team (led by researchers at Pennsylvania State University) says it's a major step toward thinner, faster and more energy-efficient electronics.

From the University's announcement: They created a complementary metal-oxide semiconductor (CMOS) computer — technology at the heart of nearly every modern electronic device — without relying on silicon. Instead, they used two different 2D materials to develop both types of transistors needed to control the electric current flow in CMOS computers: molybdenum disulfide for n-type transistors and tungsten diselenide for p-type transistors... "[A]s silicon devices shrink, their performance begins to degrade," [said lead researcher/engineering professor Saptarshi Das]. "Two-dimensional materials, by contrast, maintain their exceptional electronic properties at atomic thickness, offering a promising path forward...."

The team used metal-organic chemical vapor deposition (MOCVD) — a fabrication process that involves vaporizing ingredients, forcing a chemical reaction and depositing the products onto a substrate — to grow large sheets of molybdenum disulfide and tungsten diselenide and fabricate over 1,000 of each type of transistor. By carefully tuning the device fabrication and post-processing steps, they were able to adjust the threshold voltages of both n- and p-type transistors, enabling the construction of fully functional CMOS logic circuits.

"Our 2D CMOS computer operates at low-supply voltages with minimal power consumption and can perform simple logic operations at frequencies up to 25 kilohertz," said first author Subir Ghosh, a doctoral student pursuing a degree in engineering science and mechanics under Das's mentorship. Ghosh noted that the operating frequency is low compared to conventional silicon CMOS circuits, but their computer — known as a one instruction set computer — can still perform simple logic operations.