现在已经开发出的方案虽然各不相同,但却都是基于同一个思想,这就是将空气通过有“吸附剂”的材料,而这种材料的化学性质使它能与二氧化碳结合。
Several designs are being developed, but they involve variations on the same theme. In each case air is brought into contact with a “sorbent” material, which binds chemically with the carbon dioxide.
另一种方法是改变泥浆的化学性质,使泥浆中的材料更好地发挥作用。
Another is to change the mud chemistry to make the materials already present work better.
金属氧簇以其具有的特异、优越的物理化学性质,已经成为构造新型分子基功能材料的重要无机构筑块。
The metal-oxygen clusters have been employed to constructed novel molecules-based function materials owing to their particular physical chemistry properties.
纳米材料的物理和化学性质与它的基本单元的形状和大小密切相关…
The physical and chemical properties of nanomaterials are relevant to their morphology and dimension.
本文论及了不锈钢材料的物理化学性质。
The physical and chemical properties of the stainless steel are dealt with in this article.
铜族金属及金属氧化物纳米材料因其独特的物理化学性质,在光学、催化、气敏、磁学等领域有着广泛的应用。
Owing to unique physical and chemical properties, copper family metal and metal oxides in nanostructure have exhibited promising applications in catalysis, sensing, optics, and magnetics.
光致变色材料是一类具有特殊光化学性质的新型功能材料。
Photochromic material is a new kind of functional material that has the special photochemistry property.
组织工程材料的表面物理化学性质对材料的组织相容性有着重要影响。
Surface physical chemical properties of tissue-engineered materials are greatly important for histocompatibility of the materials.
本文在介绍铟的有关物理化学性质的基础上讨论了铟作为封接材料所形成真空密封的特点与机理。
In this paper the general physical and chemical properties of the indium which is used as a soft-metal sealant is described.
纳米材料的物理、化学性质不同于微观的原子、分子,也不同于宏观物体。
Nanomaterials have different physical, chemical characters from macroscopical materials and microscopical atom and molecular.
纳米二氧化钛是一种新型半导体材料,其化学性质比较稳定且成本低廉、无毒,是一种最有应用潜力的光催化剂。
Titanium dioxide is a new semiconductor material, with stable chemical nature, low cost and be non-toxic characters, it is the most potential applications as a photocatalyst.
空心微球型材料由于具有特殊的空心结构而致使其具有许多独特的物理化学性质,因而具有广阔的应用前景。
Due to their inner hollow structure, the hollow microspheres have many special physical and chemical properties and have extensive potential applications.
除超硬性质以外,这些材料大都具有宽带隙、高温稳定性、化学惰性等优良的物理化学性质。
Other interesting properties of these materials include their wide band gap, stability under high temperature and chemical inertness.
磺酸基官能团可以改善碳纳米管的化学性质,促进其在复合材料以及涂层中的应用。
Functionalized carbon nanotubes containing sulfonic groups can improve the chemical property of nanotube, and may promote their many potential applications such as in composites and coatings.
团簇特殊的物理化学性质和尺寸依赖性,引起了物理、材料和化学等领域的广泛关注。
The special physical and chemical properties and size-dependence of clusters arouse lots of attentions in the physical, chemical and materials fields.
纳米级多相材料以显示某些物质界面的某种特殊的物理性质和化学性质见长。
Heterogeneous nanometer level material is expert in kind of peculiar physical property and chemical property demonstrating some matter interface certain.
当纳米材料至少有一个维度达到纳米尺寸时,就会表现出一些不同于块体材料的独特的物理、化学性质。
When one of the dimensions of nano-materials reaches the nanometer magnitude, there are unique physical and chemical characters that can be different from the bulk.
壳聚糖及其衍生物因其具有良好的物理化学性质和医药功能,近年来在药物研究及生物材料领域得到广泛的应用。
Based on their excellent physical chemistry properties and pharmaceutical function, chitosan and their derivatives have been applied in the pharmaceutical field and biological materials.
介绍了锂离子电池的结构。分析了锂离子电池中各种材料的物理化学性质。
The structure of Li-ion battery and the physical and chemical properties of every all kinds of materials in Li-ion battery are introduced.
这种结构可以产生单一纳米粒子无法得到的许多新性能,因而具有许多不同于核、壳材料的独特的光、电、磁、催化等物理和化学性质。
These structures present many new functions and particular optical, electric, magnetic, or catalytic properties which could not been obtained from single nanoparticles.
作者们用照片,图表和横截面的插图,分析流行的材料,包括天然纤维,聚合物,芳纶纤维的结构和化学性质。
The authors use photographs, charts, and cross-sectional illustrations to analyze the structural and chemical properties of popular materials, including natural fibers, polymers, and aramid fibers.
作者们用照片,图表和横截面的插图,分析流行的材料,包括天然纤维,聚合物,芳纶纤维的结构和化学性质。
The authors use photographs, charts, and cross-sectional illustrations to analyze the structural and chemical properties of popular materials, including natural fibers, polymers, and aramid fibers.
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