12/03/2024, 02:01 PM UTC
可持续未来:太阳能驱动的水素生产A Sustainable Future: Solar-Driven Hydrogen Production
➀ 大邱庆北科学技术学院能源科学与工程学院的Chiyoung Park教授开发了一种太阳能生物水素生产系统,该系统使用携带氢化酶的细菌,并采用新型超分子荧光纳米复合材料。该系统氢生产率较高。 ➁ 该系统利用单宁酸基金属多酚聚合物的纳米表面吸附特性来调节荧光染料的自组装和光学性质。 ➂ 该研究得到了韩国国家研究基金会和贸易、工业和能源部的支持。➀ Professor Chiyoung Park developed a solar-powered biohydrogen generation system using bacteria-carrying hydrogenase enzymes. The system employs a new supramolecular fluorophore nanocomposite and achieves high hydrogen production rates. ➁ The system utilizes the nanosurface adsorption properties of tannic acid-based metal-polyphenol polymers to regulate the self-assembly and optical properties of fluorescent dyes. ➂ The research is supported by the National Research Foundation of Korea and the Ministry of Trade, Industry and Energy.---
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