三维网络结构 meaning in Chinese
three-dimensional net structure
Examples
- Carbon aerogels can be prepared upon pyrolysis of the cmf organic precursors at 900 ? , which can inherit well the 3d network of the original organic aerogels
将c _ mf有机气凝胶炭化可以得到炭气凝胶,它继承了有机气凝胶的三维网络结构。 - Carbon aerogels are a novel , low - density , porous , non - crystalline , monolithic , nanometer carbon materials , whose continuous network structures can be controlled and tailored at the nanoscale
炭气凝胶是一种轻质、多孔、非晶态、块体纳米炭材料,其连续的三维网络结构可在纳米尺度控制和剪裁。 - If lii + ^ vsog is doped with moos , it will change to lithium - rich mo - containing lii + ^ vsog solid - solution and lithium - poor lio . o4vi . 96moo . o4os solid - solution ; with increasing p2c > 5 content , v3o8 layered two - dimension network may be destroyed , low - lithium ft - lio . 3v2os and a - v2os are produced , in which three - dimension network characteristics become evident more and more
96mo0 。 os相;掺杂pzos使v3os层片的二维网络受到破坏,产生低理含量的三维网络结构特征逐渐加强的p l10 3v2o5和q vzos相。 - The microgels of close monodispersity with different volume and cross - linking density can be prepared by using an inverse emulsion polymerization method . both artificial and natural materials , including zeolites , membranes , vesicles , liquid crystal , microemulsion , micelles , biopolymers , etc . , have been used as template . the three - dimentional network structure and spherical morphology of polymeric microgels may guarantee the homogeneous of the structure of the composite , the size and the morphology of the various organic - inorganic composites with unusual structures
在反相乳液聚合条件下,通过控制反应条件可以得到体积不同、交联度不同的近乎单分散的微凝胶,如同分子筛、单(多)分子膜、囊泡、液晶、微乳液、胶束、生物大分子等可作为微纳米无机材料合成模板一样,高分子微凝胶所特有的三维网络结构和球形形貌有可能对在其中进行的无机结晶或沉积反应施加限域和导向作用,从而控制所生成无机材料的形貌和大小,得到各种具有特异结构的无机-有机复合材料。 - It has been demonstrated that it is the microgel that guaranteed the homogeneous of the structure of the composite , the size and the morphology of the composite particles . the surface structure of the micro - particles can be adjusted by changing the preparing conditions . the composites may adopt hollow sphere structure , and the inner may lack of cds due to precipitation was started from the outer part of the microgels
实验结果表明:高分子微凝胶的三维网络结构和所采用的制备方法确保了有机-无机复合材料复合的均匀性;微凝胶的模板作用使得复合材料呈球状结构,微球的大小决定于模板的尺寸;微球的微纳米结构可因微球的制备条件的不同(例如,改变连续相类型)而不同。