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   金属有机骨架配合物 的翻译结果: 查询用时:0.011秒
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金属有机骨架配合物
相关语句
  metal organic framework
     Synthesis and Hydrogen Storage of Metal Organic Framework (MOF-5)
     金属有机骨架配合物MOF-5的合成及其储氢研究
  “金属有机骨架配合物”译为未确定词的双语例句
     Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage,especially attract considerable attention in gas storage.
     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。
  相似匹配句对
     Nonlinear Optical Characteristics of Organometallic Complexes
     金属有机配合物的非线性光学特性
短句来源
     Study on sulfonic-containing organometallic coordination compounds
     含磺酸金属有机配合物的研究
短句来源
     Synthesis and Hydrogen Storage of Metal Organic Framework (MOF-5)
     金属有机骨架配合物MOF-5的合成及其储氢研究
     Metal-Organic Nonlinear Optical Meterials
     金属-有机配合物非线性光学材料
     Synthesis and Applications for Materials of Metallorganic Frameworks
     金属有机骨架材料的合成及应用
短句来源
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  metal organic framework
Metal organic framework (MOF) materials are a class of light weight hybrid materials with surface areas per gram that could cover an entire foot ball field.
      
Microperoxidase-11(MP-11) has been immobilized for the first time in hybrid periodic mesoporous organosilica (PMO) materials and in a nano-crystalline metal organic framework (MOF).
      
Microperoxidase-11 was physically absorbed from solution into the periodic mesoporous organosilica MBS and functionalized derivatives of MBS as well as in the 3-dimensional [Cu(OOC-C6H4-C6H4-COO)·? C6H12N2]n metal organic framework.
      


>=Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage,especially attract considerable attention in gas storage. MOF-5 shows better hydrogen storage behavior due to its preponderant properties (high surfaces, uniform pore, large pore volumes and etc). Here we found the hydrogen storage value of MOF-5 at 77 K was 1.91% and lower than the value reported of literature by investigating the hydrogen storage of MOF-5 at P-C-T setup. The experiment...

>=Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage,especially attract considerable attention in gas storage. MOF-5 shows better hydrogen storage behavior due to its preponderant properties (high surfaces, uniform pore, large pore volumes and etc). Here we found the hydrogen storage value of MOF-5 at 77 K was 1.91% and lower than the value reported of literature by investigating the hydrogen storage of MOF-5 at P-C-T setup. The experiment demonstrated that blocking pore channels by solvent molecules was key factor to affect the hydrogen storage capacity of MOF-5 and choosing appropriate activation condition to remove solvent molecules was vital to improve the hydrogen storage capacity of samples.

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。MOF-5具有较高的比表面积、均一的孔道结构,较大的孔容积,并表现出良好的储氢性能。在P-C-T装置上研究了MOF-5储氢性能,发现这种材料在77 K的储氢量达到质量分数1.91%,低于文献[2]报道的储氢值。研究证明,溶剂分子对孔道的堵塞是影响MOF-5储氢容量的关键因素。选择适当的活化条件脱除溶剂分子,是提高氢吸附容量的关键。

>=Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage,especially attract considerable attention in gas storage. MOF-5 shows better hydrogen storage behavior due to its preponderant properties (high surfaces, uniform pore, large pore volumes and etc). Here we found the hydrogen storage value of MOF-5 at 77 K was 1.91% and lower than the value reported of literature by investigating the hydrogen storage of MOF-5 at P-C-T setup. The experiment...

>=Metal organic frameworks are widely regarded as promising material for application in catalysis, separation, gas storage,especially attract considerable attention in gas storage. MOF-5 shows better hydrogen storage behavior due to its preponderant properties (high surfaces, uniform pore, large pore volumes and etc). Here we found the hydrogen storage value of MOF-5 at 77 K was 1.91% and lower than the value reported of literature by investigating the hydrogen storage of MOF-5 at P-C-T setup. The experiment demonstrated that blocking pore channels by solvent molecules was key factor to affect the hydrogen storage capacity of MOF-5 and choosing appropriate activation condition to remove solvent molecules was vital to improve the hydrogen storage capacity of samples.

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。MOF-5具有较高的比表面积、均一的孔道结构,较大的孔容积,并表现出良好的储氢性能。在P-C-T装置上研究了MOF-5储氢性能,发现这种材料在77 K的储氢量达到质量分数1.91%,低于文献[2]报道的储氢值。研究证明,溶剂分子对孔道的堵塞是影响MOF-5储氢容量的关键因素。选择适当的活化条件脱除溶剂分子,是提高氢吸附容量的关键。

 
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