根据所述方法,在有利于气体吸附的条件下,使所要存储的气体与电化学制备的有机金属骨架材料 接触。
According to said method, the gas to be stored is brought into contact with an electrochemically produced, organometallic skeleton material in conditions that are favourable for gas absorption.
你看到的不是壁板,而是加强用的骨架。因为建造这些墙的材料是金属。
What you see is not siding but enforcement ribs as the walls of the construction are made of metal.
金属有机骨架配合物是催化、分离、储存气体的理想材料,尤其在储存气体方面更是得到人们的广泛认可。
Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage, especially attract considerable attention in gas storage.
重点阐述了骨架材料、碳化物形成元素、稀土、非金属元素等在金属结合剂的作用及其影响机理。
The effect and working mechanism of skeleton material, carbide-forming elements, rare-earth and non-metallic elements in the bond are discussed.
由于受到既有的室内空间的材料的影响,这些悬挂着的音乐仪器内衬铜金属骨架,外部则由柳条编织而成,使整个空间给人温馨的感觉。
Influenced by the existing interior materials of the space, the hovering instruments are made of wicker woven against a bronze metal skeleton to create a warm ambience.
热电阻的受热部分(感温元件)是用金属丝均匀地双绕在绝缘材料制成的骨架上。
The thermal resistance of the heating part (temperature sensor) is made of metal wire even double wound on the insulating material on the skeleton.
气体通过金属-有机骨架材料吸附,随后改变条件以释放气体。
The gas is absorbed by the organometallic skeleton material and the conditions are subsequently modified in such a way that the gas is released.
空旷骨架结构过渡金属磷酸盐是一种重要的无机多功能材料,近年来,这一类化合物晶体的合成研究引起了人们的广泛兴趣。
Transition-metal phosphate with open framework structure is a group of excellent multifunctional material. Recently, the design and synthesis of those crystals have drawn much attention.
利用金属材料弯曲变形时的塑变硬化特性来弯曲矩形管,较好地解决了雨阳棚骨架现场弯曲加工的问题。
The hardening characteristic of plastic deformation is also discussed, which is useful to bend the steel tubes of awning on worksite.
结构分析表明,稀土金属的掺杂在一定程度上增大了晶胞参数,扩展了锂离子脱嵌的通道,并起到稳定材料骨架的作用。
It was indicated by the structural analyses that the cell parameters were increased by rare earth doping, which expands the tunnels for Li-ions diffusion and also stabilizes the LiMn_2O_4 frame.
结构分析表明,稀土金属的掺杂在一定程度上增大了晶胞参数,扩展了锂离子脱嵌的通道,并起到稳定材料骨架的作用。
It was indicated by the structural analyses that the cell parameters were increased by rare earth doping, which expands the tunnels for Li-ions diffusion and also stabilizes the LiMn_2O_4 frame.
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