Stretchable lithium-ion batteries (LIBs) have emerged as a promising solution for powering wearable and flexible electronic devices, including electronic skin, soft robotics, and wearable smartphones. A new development in this field now offers a significant improvement: self-healing stretchable LIBs, which not only extend the lifespan of the battery but also enhance its reliability.

In a groundbreaking study published in the KeAi Journal of Supramolecular Materials, researchers from Jilin University in China have unveiled an innovative approach to fabricating stretchable and self-healing LIBs in an all-in-one configuration. This new strategy could revolutionize the design and performance of batteries for flexible electronics.

In a groundbreaking development, scientists from the University of Bristol and the UK Atomic Energy Authority (UKAEA) have unveiled the world’s first carbon-14 diamond battery. This innovative energy source holds the potential to power devices for millennia, providing a sustainable and highly efficient solution for a wide range of applications.

The carbon-14 diamond battery harnesses the radioactive decay of carbon-14, a naturally occurring isotope commonly used in radiocarbon dating. This isotope emits short-range radiation, which is captured by a diamond casing—a material known for its strength and durability. The radiation is safely absorbed by the diamond structure, which generates electricity in a process similar to how solar panels convert light into power. However, instead of relying on sunlight, the diamond battery generates energy through fast-moving electrons produced by radioactive decay.

Trexo Robotics has reached an incredible milestone, helping children take more than 100 million steps with its groundbreaking robotic brace. The device, designed to support children with disabilities, enables them to gain strength, endurance, and proper gait patterns. It has been a transformative tool for kids with a variety of conditions, including cerebral palsy, spinal muscular atrophy, muscular dystrophy, stroke, brain injury, hemi- and paraplegia, spinal cord injuries, Rett syndrome, and other neuromuscular disorders.

Founded in 2016 by CEO Manmeet Maggu and CTO Rahul Udasi in Ontario, Canada, Trexo Robotics was born out of a personal mission to help Maggu’s nephew. The company’s innovative brace customizes each child’s gait and adjusts over time to match the child’s progress. The device can modify gait patterns, step speed, weight-bearing capacity, and level of support, adapting to the evolving needs of each user. Additionally, Trexo’s brace offers two operational modes: endurance and strength training, ensuring that the child’s specific therapeutic needs are met.

In a significant leap forward for nuclear safety, General Atomics Electromagnetic Systems (GA-EMS) has announced the successful completion of a 120-day irradiation testing period for its innovative SiGA nuclear fuel cladding. This milestone, achieved at the Advanced Test Reactor (ATR) at Idaho National Laboratory, was designed to assess the performance of SiGA cladding under extreme radiation conditions.

The rigorous testing exposed unfueled SiGA-clad rods to the intense radiation environment of a pressurized water reactor, simulating the harsh conditions they would face in a real-world nuclear power plant. According to GA-EMS, the SiGA cladding withstood the irradiation with no significant mass change, indicating excellent performance and resistance to radiation damage.

Scientists have made a groundbreaking advancement in atomic-level control of matter, a leap that could transform both fundamental scientific understanding and practical applications, particularly in the realm of pharmaceuticals. This achievement, led by physicists at the University of Bath in collaboration with an international team, could revolutionize the way researchers develop medications, improving both precision and efficiency in chemical processes.

While controlling single-molecule reactions with specific outcomes has become standard in laboratories worldwide, this level of mastery was not always achievable. Over a decade ago, IBM researchers demonstrated the potential of atomic manipulation by creating A Boy and His Atom, the world’s smallest movie, by moving individual molecules—each comprising two bonded atoms—frame by frame. Although this was a landmark achievement, controlling chemical reactions with multiple outcomes remained elusive. This limitation has been a challenge, especially in drug synthesis, where controlling byproducts could improve efficiency.

Idemitsu Kosan, a leading Japanese company, has launched what it claims to be the world’s first racing engine oil made from plant-based raw materials for more than 80% of its base oil. This revolutionary product combines top-tier racing performance with API SP certification, a significant milestone in the automotive industry. According to a recent market survey conducted by Trending Future Research Institute Inc., this oil is the first of its kind for four-wheeled vehicles to combine American Petroleum Institute (API) certification, plant-based oil, and exceptional racing performance.

The survey, conducted between December 2023 and February 2024, highlighted the breakthrough in engine oil technology, confirming that Idemitsu IFG Plantech Racing oil is the only product on the market to offer both environmental benefits and high-level performance in racing conditions.