Key Highlights
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Researchers have developed a new co-amorphous zinc-indium oxide catalyst that converts CO2 into formate with nearly perfect efficiency. This breakthrough, which uses a disordered structure to create highly active sites, could enable industrial-scale production of valuable chemicals from captured carbon dioxide.
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A new method allows robots to open drawers and cabinets they’ve never seen before by combining an initial visual guess with real-time touch and force feedback. This fusion of AI vision and physical sensing achieved a 75% success rate in real-world tests, bringing robots closer to performing everyday household tasks.
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Engineers have created a new design for acoustic liners used in aircraft engines that reduces aerodynamic drag without sacrificing their ability to absorb noise. This advancement could lead to quieter and more fuel-efficient airplanes.
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A new AI strategy enables a team of robots to work together more effectively to track and capture a moving target. This “half-cooperative” approach balances individual initiative with team coordination, improving performance in complex, dynamic environments.
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Satellite analysis combining optical and radar data is being used to detect and monitor damage to buildings and infrastructure in conflict zones like Ukraine. This technology provides a clearer, more reliable picture of change on the ground, which is crucial for humanitarian and reconstruction efforts.
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