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| Platform for innovative allosteric catalysts and selective molecule sensors |
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| Investigating the causes of Parkinson's disease |
| Whole cell visualization with negligible radiation damage |
| Capture the molecular aggregation process |
| Interior imaging of a living cell in a solution |
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| Preventing aluminum degradation |
| Development of a tungsten recycling process |
| Development of surface-controlled steel with high corrosion resistance |
| Improving the properties and capabilities of steel |
| Observing electron orbitals |
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| Unique properties of spider draglines |
| Tougher silk materials with synthetic peptides |
| Development of tires with greater fuel efficiency |
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| Power-saving telecommunications technology using magnetization |
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| Fundamental research of extreme ultraviolet lithography (EUVL) |
| High-performance nitride semiconductors for photovoltaics |
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| Visualizing materials that are invisible to electron microscopes |
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| Delicious "tenobe somen" noodles |
| Hair care for healthy hair |
| Waste treatment with less pollution |
| Ion dynamics in a water solution |
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| Developing fuel-efficient engines for eco-friendly vehicles |
| Development of a focusing mirror for more intense and smaller X-ray |
| Higher-performance automotive catalysts |
| Development of a sustainable catalyst |
| ・希少元素のリサイクルへ |
| Cleaning up contaminated land in Fukushima |
| Storage of hazardous waste |
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| Improving the performance of storage batteries |
| More efficient power generation |
| Visualizing the interior of an operating battery |
| Producing organic compounds from CO2 and H20 using sunlight energy |
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| High-activity catalysts under mild reaction conditions |
| Improving the eco-friendliness of electric vehicles |
| Deeper understanding of laser processing of light materials |
| Highly active catalysts |
