Key Highlights
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A new co-amorphous zinc-indium oxide catalyst, with a disordered structure, achieves nearly 100% efficiency in converting CO2 into formate, a valuable chemical. This breakthrough, which uses renewable electricity, demonstrates a highly efficient and stable path for industrial-scale carbon dioxide reduction.
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A novel method allows robots to open drawers and other common household objects by combining an initial visual guess with real-time touch and force feedback during manipulation. In real-world tests, this approach enabled robots to successfully open previously unseen drawers 75% of the time, a key step toward practical home-assistant robots.
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Researchers have developed a new type of acoustic liner for aircraft engines that reduces aerodynamic drag without sacrificing its ability to absorb noise. This advancement could lead to quieter and more fuel-efficient air travel by solving a common trade-off in engine design.
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A new AI planning system for robots, called Onto-LLM-TAMP, uses large language models combined with structured knowledge to plan complex tasks that involve both reasoning and physical movement. This approach helps bridge the gap between high-level instructions and the detailed steps a robot needs to perform actions in the real world.
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Engineers have created “postural virtual fixtures” for supernumerary robotic arms—extra limbs worn by a person—to guide users toward safer, more ergonomic postures during heavy lifting tasks. This technology helps prevent strain and injury by ensuring the human wears the robotic aid in the most natural and supportive way.
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