本研究针对传统H2O2生产高能耗、高污染问题，创新性地利用入侵植物芦苇(Phragmites australis)通过水热碳化和NaOH活化制备碳基电 ...

研究人员针对废咖啡渣(SCGs)资源化利用难题，通过整合碱处理-漂白-NaOH-H2O2序贯预处理、纤维素酶/甘露聚糖酶水解和突变株 ...

Abstract: Environmental deterioration of carbon steel-made parts is a serious problem. Failure due to environment conditions such as corrosion costs industries immense amount of money. Regarding this ...

吖啶酯化学发光技术是一种灵敏度高、检测速度快的生物分析方法，广泛应用于临床诊断、环境监测等领域。吖啶酯化学发光反应的核心在于发光启动试剂的配制，不同配方的发光启动试剂会显著影响发光强度和检测结果的稳定性。下面将详细和大家聊聊吖啶酯 ...

Hydrogen peroxide and vinegar stand as pillars in the world of household cleaning, each boasting unique properties that make them staples in many homes. Hydrogen peroxide, a chemical compound with the ...

New Approach Developed for Electrocatalytic H2O2 Production and Biomass Upgrading. Credit: Hui Xu Chinese scientists have created a new electrocatalyst with oxygen-coordinated Fe atoms, significantly ...

Pakistan’s textile exports have recently shown a remarkable year-on-year increase of 25.53%. Revenues in 2022 have reached $19.32 billion as compared to $15.3 billion last year. Researchers and ...

太阳能作为可再生能源，具有清洁、取之不尽、用之不竭等特性，近年来逐渐得到推广使用。太阳能电池作为吸收和储存太阳能的重要材料，生产量也逐渐扩大。 但是，太阳能电池片生产过程中会产生大量污染物。与其他行业废水相比，光伏生产废水主要由大量 ...

调节H2O2活化产生的活性氧的分布，是确保 H2O2在化学和生命科学领域高效安全使用的前提。在本文中，作者证明了通过将单原子层状 Cu5纳米团簇自组装到 FeS2表面来构建双 Cu-Fe 位点，可以高效地实现选择性 H2O2活化。与其单一的Cu或Fe对比样品不同，位于Cu5/FeS2 ...