Waseda University Develops New Method for Synthesizing Single-Crystal Nanoporous Metal Oxides
2026-03-04
A research team from Waseda University in Japan recently published innovative results in the journal Journal of Materials Chemistry, successfully developing a new synthesis method that enables precise...
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Scientists Discover Confined Water in MXene Materials Triggers Metal-Semiconductor Transition
2026-02-27
A joint research team from Drexel University and the Berlin Synchrotron Radiation Center (HZB) has published a significant discovery in Nature Communications, revealing the unique behavior of confined...
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Korean and Japanese Scientists Collaborate to Develop Novel Crystal Material That Can "Breathe" Oxygen
2026-02-24
A joint research team from Pusan National University in Korea and Hokkaido University in Japan has successfully developed a new crystal material with oxygen "breathing" functionality. This breakthro...
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Copper Doping Technology Boosts Energy Conversion Efficiency of Thermoelectric Materials
2026-02-07
A research team from Queensland University of Technology in Australia published results in Nature Communications, significantly enhancing the thermoelectric performance of germanium telluride material...
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Novel Theoretical Approach Advances High-Temperature Superconductor Research
2026-02-04
A research team from Pennsylvania State University has developed an innovative theoretical method capable of predicting the behavior of superconducting materials at higher temperatures. The study, pub...
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Novel Terahertz Modulation Technology Breaks Communication Application Bottleneck
2026-01-31
A research team from the Cavendish Laboratory at the University of Cambridge in the UK has published its latest results in the journal Light: Science & Applications, developing a terahertz modulat...
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Novel Catalyst Technology Accelerates Commercialization of Hydrogen Fuel Cells
2026-01-28
A Korean research team has developed an innovative catalyst technology for hydrogen fuel cells that significantly improves both activity and durability. Published in Advanced Materials, the findings a...
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Novel 3D-SLISE Electrolyte Drives Revolution in Lithium-Ion Battery Technology
2026-01-23
A research team from the Tokyo Institute of Science in Japan has developed a new type of quasi-solid electrolyte called 3D-SLISE, bringing breakthroughs in the safety and sustainability of lithium-ion...
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Novel Graphite Thin Film Preparation Technology Breaks Material Performance Limits
2026-01-20
A research team from the Institute for Basic Science (IBS) in Korea has developed an innovative graphite thin film preparation technology, successfully fabricating high-quality mirror-like graphite th...
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Breakthrough in New Characterization Technology Overcomes Bottlenecks in Graphene Oxide Applications: Low-Cost, High-Efficiency Detection Accelerates Industrialization
2026-01-16
A research team from the Department of Chemistry at King's College London has recently achieved a major breakthrough by developing a revolutionary characterization technique for graphene oxide. Throu...
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Korean Research Team Develops New Hydrogen Fuel Cell Catalyst, Significantly Improving Performance and Durability
2026-01-13
A joint research team from the Korea Institute of Science and Technology (KIST) and several universities published innovative results in the journal Advanced Materials, developing a novel nanostructur...
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German Scientists Break Through Bottleneck in Lead-Free Perovskite Solar Cell Technology, Achieving Record Efficiency of 8.2%
2026-01-09
A research team from the Helmholtz-Zentrum Berlin for Materials and Energy (HZB) has published significant findings in the journal Advanced Energy Materials, successfully developing tin-based perovski...
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