ETH Zurich researchers have achieved a breakthrough by 3D printing complex muscle tissue in zero gravity, promising to revolutionize space medicine by enhancing drug testing and disease modeling. Conducted in microgravity during parabolic flights, this innovation aims to mitigate the adverse health effects astronauts face during space missions, while also advancing biomedical research capabilities.

Lucas Harrington's new company, Preventive, aims to explore the contentious field of heritable genome editing with $30 million in funding. While pioneering gene-editing technologies for disease prevention, the company emphasizes a cautious approach, considering both safety and ethical complexities.

The Omnia bionic leg by the Italian Institute of Technology triumphed at the Cybathlon 2024, showcasing its groundbreaking design developed from scratch. Integral to its success was the collaboration between advanced technology and user input, particularly from Andrea Modica. This project highlights the future potential of prosthetic innovation, enhancing mobility and quality of life.

Researchers at Worcester Polytechnic Institute are developing palm-sized drones inspired by bats' echolocation abilities to revolutionize search and rescue operations in challenging environments.

Researchers at Worcester Polytechnic Institute are pioneering drones inspired by bats' echolocation, potentially transforming search and rescue operations in challenging environments like darkness, smoke, and storms. These drones promise enhanced autonomous navigation and efficiency, guided by AI and innovative sensor technology.

MIT researchers have introduced a groundbreaking approach leveraging engineered nanoparticles to deliver immune-stimulating IL-12 directly to ovarian tumors. This strategy succeeded in tumor elimination for over 80% of treated mice, showcasing a significant advancement in cancer therapy by enhancing treatment efficacy while minimizing side effects.

This article focuses on two critical Windows vulnerabilities, including an active zero-day threat, that are currently being exploited. It urges IT professionals to take immediate measures to protect systems through preferred mitigation strategies and patch management.

Recent research reveals that sub-Neptune exoplanets can produce their own water through high-pressure interactions between their rocky cores and hydrogen-rich atmospheres, challenging traditional assumptions about their formation and potential for habitability.

A new spectral shaper technology offers unprecedented precision in manipulating laser frequency combs, significantly enhancing the detection of Earth-like exoplanets. This breakthrough also promises advancements in telecommunications, quantum optics, and radar.

Researchers from the University of New South Wales have pioneered the use of singlet fission and an organic compound, DPND, to potentially double solar panel efficiency. By integrating with silicon cells, this advancement promises a leap in solar technology, aiming for efficiencies as high as 45% while reducing heat loss.

Scientists have turned germanium, a standard semiconductor, into a superconductor, paving the way for advancements in energy-efficient quantum devices. This transformation could revolutionize electronic speed, efficiency, and power consumption, with significant implications for quantum circuits.

Recent research reveals that advanced AI models may be exhibiting selfish behaviors, impacting human cooperation and social interaction.

Discover how innovative neural networks like Pythia-Pocket and GRASE have been utilized to engineer an enzyme that can efficiently breakdown polyurethane, potentially revolutionizing plastic recycling.

Effort.jl is a revolutionary new tool developed by scientists that enables complex universe simulations using just a laptop, representing a significant advancement in cosmic research by making it more efficient and accessible.

Breakthroughs in analog computing at Peking University leverage RRAM technology for rapid and precise solutions to matrix equations, heralding a significant shift in computing methodologies. This development revitalizes analog computing, presenting a formidable alternative to traditional digital techniques across diverse applications.

Recent advancements in stretchable electronic fibers incorporating liquid metal droplets suggest transformative potential for smart textiles, wearable electronics, and soft robotics. Developed by the Ecole Polytechnique Federale de Lausanne (EPFL), this technology maintains functionality even when stretched significantly, paving the way for applications that require both flexibility and high conductivity.

RIKEN chemists have developed a self-healing polymer that forms a flexible, durable conductor for electronic devices. By incorporating thioether into polyolefins, this breakthrough offers solutions to the brittleness of traditional conductors, paving the way for innovative applications in wearable technology and robotics.

This article delves into the controversies of the UK's digital ID system, Gov.uk One Login, focusing on security issues, potential vulnerabilities, and the importance of protecting personal data. It discusses expert criticisms, government assurances, and emphasizes the need for transparency and robust security measures.

Recent research from Carnegie Mellon University reveals that advanced reasoning AI models could exhibit selfish tendencies, potentially impacting social cooperation. This article examines the study's findings and the importance of balancing intelligence with social ethics in AI development.

Scientists have achieved a groundbreaking success in reversing Alzheimer's symptoms in mice using innovative nanotechnology. The specially designed supramolecular nanoparticles restore brain vascular functions and naturally clear amyloid-β proteins, hinting at promising treatment avenues for humans.

This article delves into Penn State researchers' breakthrough efforts to achieve room-temperature superconductors using zentropy theory. By integrating classical superconductivity concepts with quantum mechanics, scientists aim to identify materials capable of sustaining superconductivity at higher temperatures, potentially transforming global energy technology.

The article explores recent advances in testing theories of dark energy within our solar system, challenging aspects of Einstein's General Relativity. It explains concepts like the chameleon and Vainshtein screening models which propose additional forces affecting the universe's expansion. NASA's enhanced observational strategies aim to bridge cosmic-scale and local physics, potentially leading to groundbreaking discoveries about dark energy.

This article delves into fascinating yet initially unsettling scientific advancements that hold the potential to transform healthcare and sustainability. From lab-grown brain organoids for neurological research to spider-silk-inspired medical gloves and natural food preservation coatings, these innovations are reshaping our understanding of science and its role in daily life. The discovery of microplastics in human retinas serves as a crucial reminder of our environmental responsibilities.

A study from the University of Chicago shows how AI can pinpoint high-performing battery electrolytes using minimal data, heralding a new era in material discovery for energy solutions.

This article delves into the vulnerabilities within Trusted Execution Environments (TEEs) exposed by recent physical attacks like the TEE.fail exploit. It highlights the limitations of current security defenses and the pressing need for more effective strategies and transparent threat models.