钴和磷酸盐在电极周围形成了薄膜型的催化剂,这些催化剂就利用电极发射的电子从水中分解氢和氧。
The cobalt and phosphate form a thin-film catalyst around the electrode that then use electrons from the electrode to split the oxygen from water.
铂族金属载体催化剂薄膜材料由于高效催化性及特殊的选择性而获得广泛应用。
The membrane materials of the PGMs carrier catalyzer have won a wide application due to higher catalysis and especial selectivity.
采用催化剂高温分解法,在硅片上成功地制备了碳纳米管薄膜。
By using the catalyst pyrolysis method, the carbon nanotube film was prepared on the different substrate materials.
这个小组实现了在垂直金催化剂层方向上准直生长的氧化锌(ZnO)纳米线,然后仅仅在纳米线阵列顶端沉积由导电金纳米颗粒组成的连续薄膜。
The team grew vertically-aligned ZnO nanowire arrays on gold catalyst layers before depositing a contiguous film consisting of conductive gold nanoparticles exclusively on top of the nanowire array.
采用DQ -3催化剂,在液相本体双环管反应器中试生产了双向拉伸聚丙烯薄膜专用树脂t28c。
The trial production of a kind of speciality resin for biaxial oriented polypropylene (BOPP) T28C was carried out successfully in a liquid phase bulk double-loop reactor with catalyst DQ-3.
作为本发明的改进,所述塑料薄膜的原料还包括按重量计的10 ~25份用于线性低密度聚乙烯的茂金属催化剂。
As the improvement of the invention, the raw material of the plastic membrane also comprises 10 to 25 weight portions of metallocene catalyst for liner low density polyethylene.
本文主要讨论了用废聚乙烯薄膜制石蜡的可行性。采用高温、低压的反应条件,加入自制的催化剂;
The feasibility to develop wax by use of waste polyethylene film is mainly studied. The condition of high temperature and low pres- sure and a newly manufactured catalyst are used in the research.
镍-铋薄膜可以通过精密的厚度控制和实施适度的超电势(过电压)来替代催化剂钴,应用在太阳能的转化上。
The Ni-Bi films can be prepared with precise thickness control and operate at modest overpotential providing an alternative to the Co catalyst for applications in solar energy conversion.
所述多层薄膜提供增大的表面积,并在催化活性与可用来支 承催化剂颗粒的表面面积相关联的装置中尤其有用。
The multilayer films provide increased surface area and are particularly useful in devices where catalyst activity is related to the surface area available to support catalyst particles.
因此,有了水凝胶薄膜,高电位和氧气都不会影响生物催化剂了。
Hence, within the hydrogel film, neither high potential, nor oxygen affects their-catalyst.
因此,有了水凝胶薄膜,高电位和氧气都不会影响生物催化剂了。
Hence, within the hydrogel film, neither high potential, nor oxygen affects their-catalyst.
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