Titanium-Nickel Alloy Breakthrough Paves Way for Shape-Shifting Aircraft and Artificial Muscles

Researchers at Japan’s National Institute of Materials Science (NIMS) have developed a highly flexible alloy made of titanium and nickel that could revolutionize industries by enabling shape-shifting aircraft and ultra-strong artificial muscles. The alloy boasts the strength of steel while remaining as stretchable as rubber when subjected to environmental changes.

Shape-shifting aircraft have long been the stuff of science fiction, primarily due to the challenge of creating a material flexible enough for such transformations yet robust enough to withstand the stresses of flight. Balancing strength and flexibility has been a major obstacle for scientists, as increasing one often comes at the expense of the other. While a shape-shifting aircraft could lead to greater energy efficiency and faster travel, passenger safety remains paramount, requiring materials that do not compromise on durability.

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LG Display Unveils Stretchable Displays at Seoul Fashion Week, Redefining Fashion and Technology

LG Display, a global leader in display innovation, announced that it is showcasing its groundbreaking Stretchable displays at one of the world’s most anticipated fashion events—2025 S/S Seoul Fashion Week, held at Dongdaemun Design Plaza (DDP). These cutting-edge displays can be freely stretched, folded, and twisted, marking a major fusion of technology and fashion.

Debuting as part of futuristic clothing and bag concepts, LG Display’s Stretchable displays will be featured on the front of garments, sleeves, and clutch bags, designed by renowned Korean designers Youn-Hee Park of GREEDILOUS and Chung-Chung Lee of LIE. The models will showcase these revolutionary designs on the runway on September 5 and 7.

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NASA’s Advanced Composite Solar Sail System: A New Era in Space Propulsion

NASA’s Advanced Composite Solar Sail System (ACSSS) has reached a significant milestone—its booms and sail are now fully deployed, harnessing the pressure of sunlight to propel the spacecraft through the solar system. Much like a test pilot navigating a new aircraft, NASA is currently testing how well the sail performs in space. The spacecraft was tumbling before deployment, and now engineers are working to bring it under control using solar sail power.

Solar sails operate by using the pressure exerted by sunlight to generate low levels of thrust. As photons strike the sail’s surface, they transfer momentum to the spacecraft, causing it to accelerate gradually. Though the thrust is minimal, it can accumulate over time, making solar sails an incredibly efficient method of propulsion for small spacecraft on long-duration missions. This technology first saw success in 2010 when the Japan Aerospace Exploration Agency (JAXA) deployed the IKAROS (Interplanetary Kite-craft Accelerated by Radiation of the Sun) solar sail.

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The Rise of Illicit AI: Underground Markets Profit from Malicious Chatbots

While ChatGPT has propelled OpenAI to a $100 billion valuation with its 200 million weekly active users, the darker side of AI is quietly flourishing. Underground markets are exploiting large language models (LLMs) for illegal purposes, with some earning as much as $28,000 in just two months, according to a recent study published on arXiv by researchers from Indiana University Bloomington.

The study, which analyzed over 200 examples of malicious LLMs (dubbed “malas”) on underground marketplaces from April to October 2023, revealed two primary categories of these illicit models. Some are built as uncensored versions of open-source LLMs, while others are commercial models that have been “jailbroken” using specific prompts to bypass safety protocols.

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Predicting and Preventing Battery Overheating: New Research Tackles EV Safety Concerns

A major safety concern for electric vehicles (EVs) is managing battery temperature, as overheating can lead to hazardous situations, including fire. A University of Arizona research team, led by doctoral student Goswami, has developed a new method to predict and prevent these temperature spikes in lithium-ion batteries—the primary power source for most EVs. Supported by a $599,808 grant from the Department of Defense’s Defense Established Program to Stimulate Competitive Research, the team is pioneering a framework that combines multiphysics and machine learning models to detect and anticipate overheating, also known as thermal runaway.

The goal is to integrate this predictive system into electric vehicles’ battery management systems, offering drivers an additional layer of protection against battery malfunctions. “We need to move to green energy, but there are safety concerns associated with lithium-ion batteries,” said Goswami.

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Hypermotive and Honda Launch XM-1: Hydrogen Fuel Cell Power for the Maritime Industry

Hypermotive Limited, a UK-based leader in sustainable transport solutions, has unveiled the XM-1, a groundbreaking hydrogen fuel cell platform designed to revolutionize power generation in the maritime industry. Backed by Honda, this collaboration marks the Japanese automaker’s entry into hydrogen fuel cell technology in Europe.

As the transportation sector accounts for 20% of global CO2 emissions, efforts to reduce fossil fuel dependency have intensified. Electric vehicles (EVs) have led the way in reducing emissions for road-based and smaller vehicles. However, larger forms of transportation, like long-haul trucks and container ships, still rely heavily on fossil fuels due to their superior power density, ease of refueling, and global availability.

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Breakthrough Immunotherapy Offers Hope for Spinal Cord Injury Recovery

Severe spinal cord injuries affect millions of people worldwide, often resulting in long-term and debilitating consequences. Much of the damage comes not only from the initial trauma but also from degenerative processes that follow. However, researchers at Washington University School of Medicine in St. Louis have made remarkable progress in developing an immunotherapy that may help minimize this secondary damage. Their study, published in Nature, highlights how immunotherapy could protect neurons at the injury site from harmful immune cell attacks, providing new hope for improving recovery outcomes in individuals with spinal cord injuries.

“Immune cells in the central nervous system have a reputation for being the bad guys that can harm the brain and spinal cord,” explained Jonathan Kipnis, PhD, the Alan A. and Edith L. Wolff Distinguished Professor of Pathology & Immunology at WashU Medicine. “But our study shows it’s possible to harness the neuroprotective functions of these cells while controlling their harmful tendencies to aid in the recovery from central nervous system injuries.”

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Mobilicom Unveils Cutting-Edge 8-Inch Controller Pro for Ground Control Systems

Mobilicom Ltd., a leading provider of cybersecure robotic and drone solutions, has introduced its next-generation 8-inch Controller Pro, designed to meet the growing demands of the ground control station (GCS) market. The Shoham, Israel-based company announced this latest addition to its product line at the Commercial UAV Expo in Las Vegas, with plans to capitalize on a market expected to grow at a compound annual rate of 22% from 2023 to 2030.

“We believe our 8-inch Controller Pro has the potential to transform the uncrewed systems and robotics sector,” said Oren Elkayam, co-founder and CEO of Mobilicom. “This product combines power, portability, and affordability, providing mission-critical solutions across various applications.”

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Scaling AI: The Road to a Technological Breakthrough or Bottleneck?

The remarkable progress in artificial intelligence (AI) over recent years can largely be attributed to one factor: scale. Around the beginning of this decade, researchers noticed that as they increased the size of their algorithms and fed them more data, the capabilities of AI models skyrocketed. The latest AI models, boasting hundreds of billions to over a trillion network connections, are learning to write, code, and process information by ingesting vast amounts of data—essentially a large fraction of the internet.

This scaling, however, demands enormous computing power. According to nonprofit AI research organization Epoch AI, the computing power dedicated to AI training has been quadrupling every year. Should this trend continue, by 2030, AI models could be trained with up to 10,000 times more compute than today’s cutting-edge models, such as OpenAI’s GPT-4. This would represent a leap as significant as the difference between GPT-2’s rudimentary text generation in 2019 and GPT-4’s advanced problem-solving abilities in 2023.

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Breakthrough in Dentistry: Japanese Researchers Develop Drug to Regrow Teeth

In a groundbreaking advancement in both dentistry and genetics, a team of Japanese researchers, led by Katsu Takahashi, is on the verge of a medical revolution that could transform dental care worldwide. The team is developing a drug that could stimulate the growth of new teeth in humans, a discovery that has the potential to bring relief to millions suffering from hereditary dental conditions. Clinical trials for the drug are currently underway, with the aim of making it available to the public by 2030.

Katsu Takahashi, head of the dentistry and oral surgery department at the Medical Research Institute Kitano Hospital in Osaka, has dedicated his career to the dream of tooth regeneration. “The idea of growing new teeth is every dentist’s dream. I’ve been working on this since I was a graduate student. I was confident I’d be able to make it happen,” he said, reflecting on his long-standing commitment to this vision.

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Saskatchewan’s $80 Million Microreactor Project: A New Era in Clean Energy

The Saskatchewan government, in collaboration with the Saskatchewan Research Council (SRC) and Westinghouse, has announced an $80 million CAD project to develop the innovative eVinci microreactor. This project aims to demonstrate the capabilities of the eVinci, a compact, versatile nuclear reactor that could revolutionize energy production in Saskatchewan and beyond.

Premier Scott Moe highlighted the transformative potential of this technology, emphasizing its ability to meet Saskatchewan’s unique energy needs while reducing air pollution. According to Westinghouse, each eVinci unit could help cut up to 55,000 tons of air pollution annually.

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Breakthrough in Robotic Forearm Design Mimics Human Movements with Unprecedented Precision

Researchers from the JSK Lab at the University of Tokyo have developed a highly advanced robotic forearm that closely mirrors the proportions, weight, muscle arrangement, and joint performance of a human arm. This innovation marks a significant leap forward in robotics, offering enhanced capabilities for future humanoid machines.

To achieve this, the team integrated two muscle motors into a single module that also functions as the forearm’s bone structure. This efficient design saves space by using shared components, and a heat dissipation method allows motor heat to be transferred through the bone. The result is a radioulnar joint that perfectly mimics human anatomy, offering precise control and fluid motion.

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