IISER Pune researchers developed ultra-thin electronic devices using Bismuth Oxyselenide, advancing flexible electronics for smartphones and wearables.
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Atom-thin electronics withstand space radiation, potentially surviving for centuries in orbit
Atom-thick layers of molybdenum disulfide are ideally suited for radiation-resistant spacecraft electronics, researchers in ...
A new ultra-compact, stackable power module design drastically raises current delivery limits while shrinking footprint for ...
Samsung's Galaxy Unpacked can shift the market from "spec wars" to Agentic AI and on-device privacy. This is how the Galaxy S26 Ultra redefines the future of smartphones.
A new terahertz-band wireless testbed breaks ground by reliably transmitting ultra-wideband, 5G-compliant signals under emulated speeds up to 1,000 km/h a key technical step toward practical 6G ...
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Tark Thermal Solutions’ EFC2400 Natural Refrigerant Chiller Aligns with Latest EU F‑Gas Regulation
The EFC2400 leverages nearly a decade of our experience in customer‑specific natural refrigerant systems and packages ...
The Chosun Ilbo (English Edition) on MSN
Ultra-premium appliance war ignites as LG, Samsung, GE unveil AI innovations
At the North America’s largest kitchen and bathroom exhibition, ‘KBIS (The Kitchen & Bath Industry Show) 2026,’ held on the ...
A team of physicists at the Indian Institute of Science Education and Research Pune (IISER Pune) has developed ultra-thin electronic devices using a special semiconductor material called bismuth ...
An international team of researchers has developed a breakthrough method for producing MXenes—an important family of ...
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