1) 北京大学:齐利民课题组2023.06.02在 Advanced Functional Materials 发表的Electronic and Vacancy Engineering of Mo-RuCoOx Nanoarrays for High-Efficiency Water Splitting,并在支持文献中提到”The water used throughout all experiments was deionized and purified through a Millipore system.”
2) 兰州大学:席聘贤课题组2023.04.07在Nature Communications 发表的Understanding the sulphur-oxygen exchange process of metal sulphides prior to oxygen evolution reaction 中也提到”The deionized(DI) water for solution preparation was from a Millipore system”
3) 厦门大学与电子科技大学:梁汉锋团队联合江秋团队2023.08.07在Journal of the American Chemical Society 发表的Direct Dioxygen Radical Coupling Driven by Octahedral Ruthenium-Oxygen-Cobalt Collaborative Coordination for Acidic Oxygen Evolution Reaction的支持信息中提到“the distilled water(10-15 MΩ.cm)used throughout all experiments was purified through a Millipore system.”
4) 复旦大学:吴仁兵团队2023.05.24在ACS Catalysis发表的Inert Mg incorporation to Break the Activity/Stability relationship in High-Entropy layered hydroxides for the Electrocatalytic Oxygen Evolution Reaction中提到“The deionized water(18 MΩ.cm) used in all experiments was purified through a Millipore system.”
为什么水质对于制氢的很重要呢?
“电解”是生产纯氢的主要过程。这种“电转气”方法需要纯化水才能使电解槽本身达到最佳性能,并最终获得高品质产品。尤其是水中常见的污染物可能会对电解造成不同程度的影响:
低电导率对于电解槽的良好运行至关重要,因为离子杂质可能会降低膜的性能,甚至缩短其寿命
低TOC含量可以防止在电极表面形成有机沉积物,这对于局部电流可能造成潜在影响
稳定的水质支持持续供应大量容的高纯度氢气
Lab Water Milli-Q® 实验室纯水解决方案也广泛应用在制氢领域,无论是在生产还是实验室环节:
Elix®连续电去离子技术(EDI)确保稳定的纯水水质;
Elix®中的离子交换树脂通过电场进行连续再生,替代了有害的化学再生或昂贵的树脂更换
日供水量最高可达数千升
得益于E.R.A®技术,RO水回收率得以大幅提升(~50%)
全面的覆盖网络和专家团队为您保驾护航
远程监控与故障排除,提升效率
产水电阻率18.2MΩ·cm @25℃
TOC ≤ 5ppb
ech2o®无汞UV灯可以中和有机污染物和细菌
可持续林业认证的包装材料
Elix®中的离子交换树脂通过电场进行连续再生,替代了有害的化学再生或昂贵的树脂更换
全面的覆盖网络和专家团队为您保驾护航
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