Curtin University researchers found that optimizing the shape of zinc sulfide nanocrystals can improve molecule adhesion, leading to advancements in devices like LEDs, solar panels, and medical diagnostics. New Curtin-led research has uncovered a method to enhance the adhesion of molecules to the surface of tiny nanocrystals, a breakthrough that could lead to advancements in […]
Category Archives: Technology News
Chalmers researchers used simulations to better understand 2D perovskites, leading to insights for more stable and efficient solar cells. This could help in designing improved green energy devices. The transition to greener energy requires more stable and efficient materials for solar cells. Halide perovskites have emerged as a promising alternative to traditional silicon-based materials. Researchers […]
Using advanced X-ray techniques, scientists have achieved a significant milestone in 3D printing by producing 17-4 PH stainless steel with superior strength and durability. This development promises to lower costs and increase production flexibility, offering profound implications for manufacturing complex materials. Breakthrough in 3D Printing of Stainless Steel Researchers have developed a reliable method to […]
Researchers have discovered how the “edge of chaos” can help electronic chips overcome signal losses, making chips simpler and more efficient. By using a metallic wire on a semi-stable material, this method allows for long metal lines to act like superconductors and amplify signals, potentially transforming chip design by eliminating the need for transistor amplifiers […]
UCL researchers set a new wireless transmission record, achieving speeds of 938 Gb/s over a frequency range of 5-150 GHz, which is up to 9,380 times faster than average UK 5G speeds. This breakthrough, combining radio and optical technologies, promises faster and more reliable wireless communication within the next few years. Researchers from University College […]
Adapting FAIR principles to AI models has transformed scientific research, enabling faster and more reliable results. By integrating AI with datasets, researchers at Argonne National Laboratory have dramatically accelerated material analysis, paving the way for advanced, AI-powered scientific breakthroughs. FAIR Principles for AI Researchers initially proposed the FAIR principles—findable, accessible, interoperable, and reusable—to define best […]
Researchers have developed a groundbreaking hybrid quantum error correction technique that integrates discrete and continuous variable methods. This new approach enhances fault tolerance and efficiency in quantum computing, offering up to four times the photon loss threshold and 13 times more resource efficiency. The technique, suitable for various systems including optical, superconductors, and ion traps, […]
Researchers have created a cutting-edge structure by placing a very thin layer of a special insulating material between two magnetic layers. This new combination acts as a quantum anomalous Hall insulator, significantly broadening its potential use in developing ultra-efficient electronics and innovative solar technology. A Monash University-led research team has found that a structure featuring […]
Qunova Computing’s recent breakthrough using its HiVQE algorithm not only achieved chemical accuracy on several NISQ quantum computers but also accelerated computations by 1,000 times. This advancement significantly narrows the gap to achieving a quantum advantage in chemistry, offering the potential to revolutionize how we approach complex chemical problems with quantum computing. This achievement marks […]
Scientists have developed a new way to make stronger metals for use in extreme environments like power generation turbines. By using 3D printing and analyzing the metals with neutron technology, they’ve found that heat treatments can lower the stress within the metals, making them more durable. Advanced Superalloys Extreme applications such as advanced gas turbines […]