An anonymous reader shares a report: In the latest blast of the HDD vs SSD culture wars, a Pure Storage exec is predicting that no more hard disk drives will be sold after 2028 because of electricity costs and availability, as well as NAND $/TB declines. Shawn Rosemarin, VP R&D within the Customer Engineering unit at Pure, told B&F: "The ultimate trigger here is power. It's just fundamentally coming down to the cost of electricity." Not the declining cost of SSDs and Pure's DFMs dropping below the cost of disks, although that plays a part. In his view: "Hard drive technology is 67 years old. We need to herald this technology that went from five megabytes the size of this room to where we are today. And even the latest HAMR technology, putting a laser on the top of the head in order to heat up the platters, is pretty remarkable ... But we're at the end of that era."

HDD vendors sing a different tune, of course. Back in 2021, HDD vendor Seagate said the SSD most certainly would not kill disk drives. There's a VAST vs Infinidat angle to it as well, with the former also stating disk drive IO limitations would cripple the use of larger disk drives in petabyte-scale data stores, with Infidat blasting back that it "must be joking." Gartner has had a look in too, claiming that enterprise SSDs will hit 35 percent of HDD/SSD exabytes shipped by 2026 - though that would make Rosemarin's 2028 cutoff unlikely. Pure recently stated SSDs would kill HDDs in a crossover event that would happen "soon." Rosemarin, meanwhile, continued his argument: "Our CEO in many recent events has quoted that 3 percent of the world's power is in datacenters. Roughly a third of that is storage. Almost all of that is spinning disk.

So if I can eliminate the spinning disk, and I can move to flash, and I can in essence reduce the power consumption by 80 or 90 percent while moving density by orders of magnitude in an environment where NAND pricing continues to fall, it's all becoming evident that hard drives go away." Are high electricity prices set to continue? "I think the UK's power has gone up almost 5x recently. And here's the thing ... when they go up, they very seldom if ever come down ... I've been asked many times do I think the cost of electricity will drop over time. And, frankly, while I wish it would and I do think there are technologies like nuclear that could help us over time. I think it'll take us several years to get there. We're already seeing countries putting quotas on electricity, and this is a really important one -- we've already seen major hyperscalers such as one last summer who tried to enter Ireland [and] was told you can't come here, we don't have enough power for you. The next logical step from that is OK, so now if you're a company and I start to say, well, we only have so much power, so I'm gonna give you X amount of kilowatts per X amount of employees, or I'm gonna give you X amount of kilowatts for X amount of revenue that you contribute to the GDP of the country or whatever metric is acceptable."

An anonymous reader quotes a report from Ars Technica: A team of researchers at the Italian Institute of Technology (IIT) in Milan recently created a fully rechargeable battery using nontoxic edible components. This is probably the world's first battery that is safe to ingest and entirely made of food-grade materials. "Given the level of safety of these batteries, they could be used in children's toys, where there is a high risk of ingestion," said Mario Caironi, a senior researcher at IIT. However, this isn't the only solution the edible battery could provide. Apart from serving as an alternative to conventional toxic toy batteries, the edible battery from IIT could also play a key role in making health care applications safer than ever. For instance, doctors have to be cautious regarding the use of miniature electronic devices (such as drug-delivery robots, biosensors, etc.) inside the human body, as they come equipped with batteries made of toxic substances. An edible battery could solve this problem. There are also more mundane applications, like replacing batteries in pet toys.

Ivan K. Ilic, first author of the study and a postdoctoral researcher at IIT, told Ars Technica, "Two main ways a battery damages human tissue when it's inside the body is by doing water electrolysis and by the toxicity of its materials. Water electrolysis is a phenomenon where electricity with a voltage higher than 1.2 V (virtually all commercial batteries) breaks water into oxygen and hydrogen (an explosive gas), and it is very dangerous if it occurs in the stomach. Our battery is way below this voltage, around 0.65 V, so water electrolysis cannot occur. On the other hand, we used only food materials, so nothing is toxic!" Before the battery is useful, however, the researchers will need to first enhance the battery's power capacity. Currently, the edible battery can supply 48 microamperes of current for a bit over 10 minutes. So it can easily meet the power demand of a miniature medical device or a small LED. "These batteries are no competition to ordinary batteries -- they will not power electric cars -- but they are meant to power edible electronics and maybe some other niche applications, so their main advantage is non-toxicity," said Ilic. Here's a list of what makes these edible batteries work, as mentioned by Ars:

- "Quercetin, a pigment found in almonds and capers, serves as the battery cathode, whereas riboflavin (vitamin B2) makes up the battery anode.
- The researchers used nori (edible seaweed that is used in the wrapping of sushi rolls) as the separator and a water-based solution (aqueous NaHSO4) as the electrolyte.
- Activated charcoal is employed to achieve high electrical conductivity in the battery.
The battery electrodes come covered in beeswax and connect to a gold foil (used to cover pastries) that laminates a supporting structure made of ethyl cellulose."

The research has been published in the journal Advanced Materials.

A Norwegian company named ENRX "wants to inductively charge electric vehicles with 200 kW while driving on a section of highway in Florida," according to the "electric mobility industry" news site electrive.com.

"A one-mile section of a four-lane highway near Orlando is to be electrified." ENRX has teamed up with the Central Florida Expressway Authority and the Aspire Engineering Research Center for an initiative to build a one-mile (1.6-kilometre) section on a four-lane highway near Orlando that will inductively charge the batteries of moving electric vehicles at 200 kW.

The principle is clear: the electric vehicle batteries are fitted with a special receiver pad and charged as they drive over the coils embedded in the road. In the process, the energy is transferred from these coils to the receiver pad mounted on the vehicle floor, which according to ENRX should provide "a safe, wireless power supply" even at motorway speeds. Advantages of the 'Next Generation Electric Roadway system' mentioned include interoperability, different output power levels for different vehicle and battery types, or user-defined distance between the ground and the vehicle. In addition, the system (on the infrastructure side) is supposed to be maintenance-free after installation...

"When you can charge while driving, range anxiety and frequent charging stops will be a thing of the past," says ENRX CEO Bjørn Eldar Petersen... "Dynamic charging can reduce the need for large battery capacities, allowing cars to be equipped with lighter and more affordable battery packs."
Thanks to long-time Slashdot reader aduxorth for sharing the news.

Friday Bill Gates visited Kemmerer, Wyoming (population: 2,656) — where a coal plant was shutting down after 50 years. But Gates was there "to celebrate the latest step in a project that's been more than 15 years in the making: designing and building a next-generation nuclear power plant..."

The new plant will employ "between 200 and 250 people," Gates writes in a blog post, "and those with experience in the coal plant will be able to do many of the jobs — such as operating a turbine and maintaining connections to the power grid — without much retraining." It's called the Natrium plant, and it was designed by TerraPower, a company I started in 2008. When it opens (potentially in 2030), it will be the most advanced nuclear facility in the world, and it will be much safer and produce far less waste than conventional reactors.

All of this matters because the world needs to make a big bet on nuclear. As I wrote in my book How to Avoid a Climate Disaster , we need nuclear power if we're going to meet the world's growing need for energy while also eliminating carbon emissions. None of the other clean sources are as reliable, and none of the other reliable sources are as clean...

Another thing that sets TerraPower apart is its digital design process. Using supercomputers, they've digitally tested the Natrium design countless times, simulating every imaginable disaster, and it keeps holding up. TerraPower's sophisticated work has drawn interest from around the globe, including an agreement to collaborate on nuclear power technology in Japan and investments from the South Korean conglomerate SK and the multinational steel company ArcelorMittal...

I'm excited about this project because of what it means for the future. It's the kind of effort that will help America maintain its energy independence. And it will help our country remain a leader in energy innovation worldwide. The people of Kemmerer are at the forefront of the equitable transition to a clean, safe energy future, and it's great to be partnering with them.
Gates writes that for safety the plant uses liquid sodium (instead of water) to absorb excess heat, and it even has an energy storage system "to control how much electricity it produces at any given time..."

"I'm convinced that the facility will be a win for the local economy, America's energy independence, and the fight against climate change.

Phoronix shares some overlooked news from AMD's openSIL presentation at the OCP Regional Summit in April. Specifically, that AMD openSIL — their open-source x86 silicon initialization library — "is planned to eventually replace AMD's well known AGESA [BIOS utility]" around 2026, and "it will be supported across AMD's entire processor stack — just not limited to EPYC server processors as some were initially concerned..." Raj Kapoor, AMD Fellow and AMD's Chief Firmware Architect, in fact began the AMD openSIL presentation by talking about the challenges they've had with AGESA in adapting it to Coreboot for Chromebook purposes with Ryzen SoCs... With AMD openSIL not expected to be production ready until around 2026, this puts it roughly inline for an AMD Zen 6 or Zen 7 introduction. The proof of concept code for AMD Genoa is expected to come soon...

The presentation also noted that beyond AMD openSIL code being open-source, the openSIL specification will also be open. AMD "invites every silicon vendor" to participate in this open-source system firmware endeavor.

Supported by conversations with nearly a dozen former employees, 9to5Mac details the downfall of Brydge -- "a once thriving startup making popular keyboard accessories for iPad, Mac, and Microsoft Surface products." An anonymous reader shares an excerpt from the report: According to nearly a dozen former Brydge employees who spoke to 9to5Mac, Brydge has gone through multiple rounds of layoffs within the past year after at least two failed acquisitions. As it stands today, Brydge employees have not been paid salaries since January. Customers who pre-ordered the company's most recent product have been left in the dark since then as well. Its website went completely offline earlier this year, and its social media accounts have been silent since then as well. Those former Brydge employees largely attribute the company's failure to mismanagement during growth, misleading statements from its two co-CEOs, and an overall hostile working environment that led to a high turnover rate.

Longtime Slashdot reader SonicSpike shares a report from Engadget: The Biden administration wants to impose a 30 percent tax on the electricity used by cryptocurrency mining operations, and it has included the proposal in its budget for the fiscal year of 2024. In a blog post on the White House website, the administration has formally introduced the Digital Asset Mining Energy or DAME excise tax. It explained that it wants to tax cryptomining firms, because they aren't paying for the "full cost they impose on others," which include environmental pollution and high energy prices.

Crypto mining has "negative spillovers on the environment," the White House continued, and the pollution it generates "falls disproportionately on low-income neighborhoods and communities of color." It added that the operations' "often volatile power consumption " can raise electricity prices for the people around them and cause service interruptions. Further, local power companies are taking a risk if they decide to upgrade their equipment to make their service more stable, since miners can easily move away to another location, even abroad. As Yahoo News noted, there are other industries, such as steel manufacturing, that also use large amounts of electricity but aren't taxed for their energy consumption. In its post, the administration said that cryptomining "does not generate the local and national economic benefits typically associated with businesses using similar amounts of electricity."

Critics believe that the government made this proposal to go after and harm an industry it doesn't support. A Forbes report also suggested that DAME may not be the best solution for the issue, and that taxing the industry's greenhouse gas emissions might be a better alternative. That could encourage mining firms not just to minimize energy use, but also to find cleaner sources of power. It might be difficult to convince the administration to go down that route, though: In its blog post, it said that the "environmental impacts of cryptomining exist even when miners use existing clean power." Apparently, mining operations in communities with hydropower have been observed to reduce the amount of clean power available for use by others. That leads to higher prices and to even higher consumption of electricity from non-clean sources. "If the proposal ever becomes a law, the government would impose the excise tax in phases," adds Engadget. "It would start by adding a 10 percent tax on miners' electricity use in the first year, 20 percent in the second and then 30 percent from the third year onwards."

An anonymous reader quotes a report from Reuters: U.S. company Westinghouse unveiled plans on Thursday for a small modular reactor to generate virtually emissions-free electricity that could replace coal plants or power water desalinization and other industries. Rita Baranwal, the Westinghouse Electricity Co's top technology officer, said the reactor, dubbed AP300 for its planned 300 Megawatt capacity, will not use special fuels or liquid metal coolants unlike some other next-generation reactors. It will be a smaller version of its AP1000 reactor, several of which are operating in China, and which are ramping up in Georgia at the Vogtle plant, after years of delay and billions of dollars over budget.

Despite hurdles for new nuclear, Baranwal was confident. "We've kept it simple, designed it on demonstrated and licensed technology, and I think that's one of the advantages that we have with this concept," she told Reuters in an interview. Westinghouse, owned by Brookfield Business Partners, plans to start constructing the reactor by 2030 and have it running by 2033. So far the design for only one SMR, planned by NuScale Power, has been approved by U.S. regulators and it still needs permits.

Westinghouse did not reveal how much the first reactor would cost, but said later units would cost about $1 billion. The company, based in western Pennsylvania, has had informal talks with parties in neighboring states Ohio and West Virginia about the potential building of AP300s at former coal plants. Westinghouse also hopes to sell reactors to countries in eastern Europe, even though nuclear power critics have expressed concerns that developers and governments should think carefully before building new nuclear plants anywhere near the region. They noted that Russia took the Zaporizhzhia nuclear power plant in Ukraine, the site of repeated shelling.

New York is expected to be the first state in the U.S. to phase in a ban on fossil fuel equipment in new construction. The ban is included in the $229 billion state budget deal and will likely take effect in 2026 for most new buildings under seven stories and in 2029 for larger buildings. NPR reports: New gas stoves or propane furnaces would be a thing of the past under the proposal, which would require homes and businesses to be fully electric starting in 2026. Existing buildings would be unaffected. Any new construction seven stories and under would not be permitted to install fossil fuel equipment, though large commercial or industrial buildings 100,000 square feet or more would be exempt. By 2029, the ban would apply to all new construction.

According to Bloomberg (paywalled), Microsoft is helping finance AMD's expansion into AI chips. Meanwhile, AMD is working with Microsoft to create an in-house chipset, codenamed Athena, for the software giant's data centers. Paul Thurrott reports: Athena is designed as a cost-effective replacement for AI chipsets from Nvidia, which currently dominates this market. And it comes with newfound urgency as Microsoft's ChatGPT-powered Bing chatbot workloads are incredibly expensive using third-party chips. With Microsoft planning to expand its use of AI dramatically this year, it needs a cheaper alternative.

Microsoft's secretive hardware efforts also come amid a period of Big Tech layoffs. But the firm's new Microsoft Silicon business, led by former Intel executive Rani Borkar, is growing and now has almost 1,000 employees, several hundred of which are working on Athena. The software giant has invested about $2 billion on this effort so far, Bloomberg says. (And that's above the $11 billion it's invested in ChatGPT maker OpenAI.) Bloomberg also says that Microsoft intends to keep partnering with Nvidia too, and that it will continue buying Nvidia chipsets as needed.

An anonymous reader shares a report: We recently covered a study by Secure Data Recovery, an HDD, SSD, and RAID data recovery company, of 2,007 defective hard disk drives it received. It found the average time before failure among those drives to be 2 years and 10 months. That seemed like a short life span, but considering the limited sample size and analysis in Secure Data Recovery's report, there was room for skepticism. Today, Backblaze, a backup and cloud storage company with a reputation for detailed HDD and SSD failure analysis, followed up Secure Data Recovery's report with its own research using a much larger data set. Among the 17,155 failed HDDs Backblaze examined, the average age at which the drives failed was 2 years and 6 months.

Backblaze arrived at this age by examining all of its failed drives and their respective power-on hours. The company recorded each drive's failure date, model, serial number, capacity, failure, and SMART raw value. The 17,155 drives examined include 72 different models and does not include failed boot drives, drives that had no SMART raw attribute data, or drives with out-of-bounds data. If Backblaze only looked at drives that it didn't use in its data centers anymore, there would be 3,379 drives across 35 models, and the average age of failure would be a bit longer at 2 years and 7 months. Backblaze said its results thus far "are consistent" with Secure Data Recovery's March findings. This is despite Backblaze currently using HDDs that are older than 2 years and 7 months.

Export controls imposed by the U.S. on microchips, aiming to hinder China's technological advancements, have had minimal effects on the country's tech sector. While the restrictions have slowed down variants of Nvidia's chips for the Chinese market, it has not halted China's progress in areas like AI, as the reduced performance is still an improvement for Chinese firms, and researchers are finding ways to overcome the limitations. Reuters reports: Nvidia has created variants of its chips for the Chinese market that are slowed down to meet U.S. rules. Industry experts told Reuters the newest one - the Nvidia H800, announced in March - will likely take 10% to 30% longer to carry out some AI tasks and could double some costs compared with Nvidia's fastest U.S. chips. Even the slowed Nvidia chips represent an improvement for Chinese firms. Tencent Holdings, one of China's largest tech companies, in April estimated that systems using Nvidia's H800 will cut the time it takes to train its largest AI system by more than half, from 11 days to four days. "The AI companies that we talk to seem to see the handicap as relatively small and manageable," said Charlie Chai, a Shanghai-based analyst with 86Research.

Part of the U.S. strategy in setting the rules was to avoid such a shock that the Chinese would ditch U.S. chips altogether and redouble their own chip-development efforts. "They had to draw the line somewhere, and wherever they drew it, they were going to run into the challenge of how to not be immediately disruptive, but how to also over time degrade China's capability," said one chip industry executive who requested anonymity to talk about private discussions with regulators. The export restrictions have two parts. The first puts a ceiling on a chip's ability to calculate extremely precise numbers, a measure designed to limit supercomputers that can be used in military research. Chip industry sources said that was an effective action. But calculating extremely precise numbers is less relevant in AI work like large language models where the amount of data the chip can chew through is more important. [...] The second U.S. limit is on chip-to-chip transfer speeds, which does affect AI. The models behind technologies such as ChatGPT are too large to fit onto a single chip. Instead, they must be spread over many chips - often thousands at a time -- which all need to communicate with one another.

Nvidia has not disclosed the China-only H800 chip's performance details, but a specification sheet seen by Reuters shows a chip-to-chip speed of 400 gigabytes per second, less than half the peak speed of 900 gigabytes per second for Nvidia's flagship H100 chip available outside China. Some in the AI industry believe that is still plenty of speed. Naveen Rao, chief executive of a startup called MosaicML that specializes in helping AI models to run better on limited hardware, estimated a 10-30% system slowdown. "There are ways to get around all this algorithmically," he said. "I don't see this being a boundary for a very long time -- like 10 years." Moreover, AI researchers are trying to slim down the massive systems they have built to cut the cost of training products similar to ChatGPT and other processes. Those will require fewer chips, reducing chip-to-chip communications and lessening the impact of the U.S. speed limits.

According to DigiTimes, TSMC will charge an extra 30% more for chips made in American than for chips made in Taiwan. Tom's Hardware reports: TSMC has started discussions with customers about orders and pricing for both overseas plants, which are set to begin commercial production in late 2024. Industry insiders believe that prices of chips produced on TSMC's N4 and N5 process technologies in the U.S. will be 20% -- 30% higher than those in Taiwan, while older process chips produced in Japan's Kumamoto facility on N28/N22 as well as N16/N12 nodes may cost 10% - 15% more than similar chips fabbed in Taiwan.

While American chip designers certainly won't appreciate higher costs on chip production in the U.S., it is likely that they will make chips aimed at government and less price-sensitive applications in Arizona. Therefore, they should be able to pass those extra costs on to their customers without risking their competitive positions. Given the high construction and operational costs of fabs in Japan and the U.S., TSMC is going to pass those extra expenses on to customers to maintain its gross margin target of 53%.

AMD has posted its first quarterly loss in years due to weak sales of processors for client PCs. From a report: Overall, AMD's chip sales dropped 64%. AMD's data center and gaming hardware shipments remained strong and were flat year-over-year, which is quite an achievement given the slowing purchases of servers and weak demand for gaming hardware among consumers. While AMD's management expects the CPU market to start recovering in the second half of the year, the company's outlook for Q2 is not that optimistic.

In the first quarter of FY2023, AMD's revenue amounted to $5.353 billion, which is a 9% decrease compared to the same period in the previous year and a slight decrease compared to the previous quarter. Unfortunately, the company slipped into the red with a $139 million net loss as compared to a $786 million net income in Q1 FY2022. Additionally, AMD's gross margin decreased from 48% in Q1 FY2022 to 44% in Q1 FY2023. [...] AMD's results were a mixed bag as all of the company's business units except its Client Computing business remained more or less flat compared to the first quarter of FY2022, and even remained profitable. In fact, AMD's Data Center unit even managed to modestly increase its revenue, yet its profitability declined.

When Intel debuts its forthcoming Meteor Lake client processors, the company may drop its iconic "i" CPU branding and add a new moniker. Chipzilla today told The Register "We are making brand changes as we're at an inflection point in our client roadmap in preparation for the upcoming launch of our Meteor Lake processors. We will provide more details regarding these exciting changes in the coming weeks." From the report: The Register asked Intel about branding after semiconductor analyst Dylan Patel on Monday tweeted "Imagine you're losing market share when you've been monopoly for decades, and your bright idea is to burn all brand recognition to the ground!" "That's Intel's plan by removing the 'i' in i7 i5 i3. All the decades brand recognition being lit on fire for no reason!"

Patel labelled the rebranding a "horrible very short sighted move" that won't fix Intel's woes and "will cause more harm than good, as many buyers know + recognize the i7 i5 branding, they won't once it's changed." "The new branding sounds bad with ultra strewn about + confusing scheme."

Patel's mention of "Ultra" branding appears to be a reference to this benchmark result for game Ashes of the Singularity: Escalation which lists a processor called "Intel Core Ultra 5 1003H".

Researchers at the University of Minnesota report via Phys.Org: Biocomputing is typically done either with live cells or with non-living, enzyme-free molecules. Live cells can feed themselves and can heal, but it can be difficult to redirect cells from their ordinary functions toward computation. Non-living molecules solve some of the problems of live cells, but have weak output signals and are difficult to fine-tune and regulate. In new research published in Nature Communications, a team of researchers at the University of Minnesota has developed a platform for a third method of biocomputing: Trumpet, or Transcriptional RNA Universal Multi-Purpose GatE PlaTform.

Trumpet uses biological enzymes as catalysts for DNA-based molecular computing. Researchers performed logic gate operations, similar to operations done by all computers, in test tubes using DNA molecules. A positive gate connection resulted in a phosphorescent glow. The DNA creates a circuit, and a fluorescent RNA compound lights up when the circuit is completed, just like a lightbulb when a circuit board is tested.

The research team demonstrated that:

- The Trumpet platform has the simplicity of molecular biocomputing with added signal amplification and programmability.
- The platform is reliable for encoding all universal Boolean logic gates (NAND, NOT, NOR, AND, and OR), which are fundamental to programming languages.
- The logic gates can be stacked to build more complex circuits.

The team also developed a web-based tool facilitating the design of sequences for the Trumpet platform. "Trumpet is a non-living molecular platform, so we don't have most of the problems of live cell engineering," said co-author Kate Adamala, assistant professor in the College of Biological Sciences. "We don't have to overcome evolutionary limitations against forcing cells to do things they don't want to do. This also gives Trumpet more stability and reliability, with our logic gates avoiding the leakage problems of live cell operations."

"It could make a lot of long-term neural implants possible. The applications could range from strictly medical, like healing damaged nerve connections or controlling prosthetics, to more sci-fi applications like entertainment or learning and augmented memory," added Adamala.

According to Windows Latest, Microsoft is working on new ARM chips to compete against Apple Silicon. "I have also spotted some job listings that suggest the company is building its own Silicon-based ARM chips for client devices" writes Mayank Parmar. "Additionally, I understand that Microsoft is optimizing Windows 12 for Silicon-ARM architecture." From the report: These developments coincide with the upcoming launch of Windows 12, which has a special version optimized for silicon and designed to leverage AI capabilities. The job listings (most of them have now been taken down) describe positions related to custom silicon accelerators, System on Chips (SoCs), and high-performance, high-bandwidth designs. This suggests that Microsoft is building its own ARM-based chips, aiming to compete with Apple's M chips lineup in terms of performance and efficiency.

An anonymous reader shared this report from IEEE Spectrum: Transistors inside modern computer chips are several nanometers across, and switch on and off at hundreds of gigahertz. Organic electrochemical transistors, made for biodegradable applications, are milimeters in size and switch at kilohertz rates. The world's first wooden transistor, made by a collaboration of researchers through the Wallenberg Wood Science Center and reported this week in Publications of the National Academy of Sciences, is 3 centimeters across and switches at less than one Hertz. While it may not be powering any wood-based supercomputers anytime soon, it does hold out promise for specialized applications including biodegradable computing and implanting in into living plant material.

"It was very curiosity-driven," says Isak Engquist, a professor at Linköping University who led the effort. "We thought: 'Can we do it? Let's do it, let's put it out there to the scientific community and hope that someone else has something where they see these could actually be of use in reality...'"

Wood has great structural stability while being highly porous and efficiently transporting water and nutrients. The researchers leveraged these properties to create conducting channels inside the wood's pores and electrochemically modulate their conductivity with the help of a penetrating electrolyte. Of the 60,000 species, the team chose balsa wood for its strength, even when one of the components of its structure — lignin — was largely removed to make more room for conducting materials. To remove much of the lignin, pieces of balsa wood were treated with heat and chemicals for five hours. Then, the remaining cellulose-based structure was coated with a conducting polymer...

Since the pores inside wood are made for transporting water, the PEDOT:PSS solution readily spread through the tubes. Electron microscopy and X-ray imaging of the result revealed that the polymer decorated the insides of the tube structures. The resulting wood chunks conducted electricity along their fibers.

The Independent reports: Russian troops who dug trenches in Chernobyl forest during their occupation of the area have been struck down with radiation sickness, authorities have confirmed.

Ukrainians living near the nuclear power station that exploded 37 years ago, and choked the surrounding area in radioactive contaminants, warned the Russians when they arrived against setting up camp in the forest. But the occupiers who, as one resident put it to The Times, "understood the risks" but were "just thick", installed themselves in the forest, reportedly carved out trenches, fished in the reactor's cooling channel — flush with catfish — and shot animals, leaving them dead on the roads...

In the years after the incident, teams of men were sent to dig up the contaminated topsoil and bury it below ground in the Red Forest — named after the colour the trees turned as a result of the catastrophe... Vladimir Putin's men reportedly set up camp within a six-mile radius of reactor No 4, and dug defensive positions into the poisonous ground below the surface.

On 1 April, as Ukrainian troops mounted counterattacks from Kyiv, the last of the occupiers withdrew, leaving behind piles of rubbish. Russian soldiers stationed in the forest have since been struck down with radiation sickness, diplomats have confirmed. Symptoms can start within an hour of exposure and can last for several months, often resulting in death.

This February Ford cut 3,800 jobs, according to CNN, "citing difficult economic conditions and its major push toward electric vehicles... The veteran automaker said the layoffs were primarily triggered by its transition to electric vehicles, and a reduction in 'vehicle complexity.'"

Then in March GM also "unexpectedly cut several hundred jobs to help it trim costs and form a top-tier workforce to guide its transition to an all-electric car company," according to the Detroit Free Press — while later also announcing buyouts to try to "accelerate attrition." A spokesperson explained that GM wanted "to reduce vehicle complexity and expand the use of shared systems between its internal combustion engine and future electric vehicle programs."

Up next is Stellantis, the multinational automotive giant formed when Fiat-Chrysler merged with PSA Group in 2021. It's now "trying to cut its workforce to trim expenses and stay competitive," reports the Associated Press, "as the industry makes the long and costly transition to electric vehicles." Stellantis on Wednesday said it's offering buyouts to groups of white-collar and unionized employees in the U.S., as well as hourly workers in Canada. The cuts are "in response to today's increasingly competitive global market conditions and the necessary shift to electrification," the company said in a prepared statement.

Stellantis said it's looking to reduce its hourly workforce by about 3,500, but wouldn't say how many salaried employees it's targeting. The company has about 56,000 workers in the U.S., and about 33,000 of them could get the offers. Of those, 31,000 are blue-collar workers and 2,500 salaried employees. The company has another 8,000 union workers in Canada, but it would not say how many will get offers...

The offers follow Ford and General Motors, which have trimmed their workforces in the past year through buyout offers. About 5,000 white-collar workers took General Motors up on offers to leave the company this year. Ford cut about 3,000 contract and full-time salaried workers last summer, giving them severance packages.
The article adds that Shawn Fain, the new president of the United Auto Workers union, has told reporters "that he's unhappy with all three companies" over attempts to unionize "new joint-venture factories that will make battery cells for future electric vehicles."

The Detroit Free Press has specifics: He said, for instance, that the wages are lower at the GM and LG Energy Solution Ultium Cells joint venture in Ohio compared with other auto production jobs even though the work is potentially dangerous and requires significant training... The EV transformation is crucial for the future of the industry and its workers, and the union expects its members not to "get lost in the transition," Fain said, noting that jobs are needed "that raise people up, not take us back."