nanofibers
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例句
Electrospinning is one of methods to produce effectively nanofibers with diameter ranging from several nanometers to several microns.
静电纺丝(电纺)技术是一种制备直径为数十纳米到数微米的纳米纤维的有效方法。
Electrospinning technology as one of the most convenient ways to produce nanofibers possesses unique advantage.
静电纺丝技术作为制备纳米纤维最简便的方法之一具有独特的优势。
In a lab, they built a scaffold-looking structure consisting of carbon nanofibers and a government-approved polymer.
在一个实验室里,研究人员建立了一个由纳米碳纤维和经有关部门批准的高分子聚合物所组成且类似于脚手架一样的构造。
Injected as a liquid, the nanogel self-assembles into a scaffold of nanofibers.
材料以液体状态被注射入患者体内,并在体内自发形成纳米纤维结构。
Electrospinning is a new technique, which can be used to prepare nanofibers with a diameter down to 1nm.
静电纺丝是一种新技术,它可制备出直径为纳米级的丝,最小直径可至1纳米。
The infrared extinction performance of carbon nanofibers used as smoke interference materials was studied within a smoke chamber.
利用烟幕箱测试分析了纳米碳纤维作为烟幕干扰材料的红外消光性能。
These cartridges utilize advanced nanofiber technology featuring ceramic nanofibers on a micro-glass matrix.
这种过滤器利用先进的纳米纤维技术,采用了微玻璃基质上的陶瓷纳米纤维。
Finally, through magnetic experiment, it analyzed the magnetic performance of the nanofibers.
最后,通过磁性实验观察分析了复合纳米纤维的磁性性能。
The difficulty of Graphite nanofibers (GNF) as a PEMFC's support is not nano-scale particles.
石墨纳米纤维(GNF)作为PEMFC载体的难点是GNF的颗粒达不到纳米级。
Preparation of carbon nanofibers by electrospinning have unique one-dimensional nano structure and large length to diameter ratio.
利用静电纺丝技术制备的碳纳米纤维具有独特的一维纳米结构和极高的长径比。
Nanofibers of varied Polymers, with diameters in the different ranges, were prepared by self-designed equipment of electrospinning.
通过自制的电纺丝装置获得高聚物纳米纤维,发现不同高聚物纳米纤维具有不同的直径范围。
Low density conductive materials can include metal screens, optionally in combination with carbon nanofibers.
低密度导电材料可以包括任选与碳纳米纤维结合的金属丝网。
The application of carbon nanofibers synthesized in-situ by catalytic pyrolysis method in micro-pore carbon brick was researched.
考察了原位催化裂解法合成碳纳米纤维在微孔碳砖中的应用情况。
Ni-P coated carbon nanofibers exhibit fine magnetic and electromagnetic wave absorbing properties.
镍磷镀层纳米碳纤维具有较好的磁性能和微波吸收性能。
Concerning industrial applications, electroless plating is the preferred method of surface metallization of carbon nanofibers.
考虑到大规模的工业化应用,化学镀是纳米碳纤维表面金属化的首选方法。
This result implied that the nanofibers of 3 could be a potential colorimetric acid sensor.
这一结果告诉我们,化合物3的纳米纤维可以成为潜在的比色酸传感器。
New manufacturing techniques of nanofibers and the prospect of applications of typical nanofibers are reviewed.
论述了纳米纤维制备新方法和典型纳米纤维的应用前景。
Varieties of morphology of carbon nanofibers are attributed to the complexity of coal-tar pitch and phenolic resin.
沥青和树脂成分的复杂性决定了生成碳纳米纤维形貌的多样性。
Polyaniline nanofibers were synthesized by direct mixing reaction in ultrasonic field.
在超声场下用直接混合法合成了聚苯胺纳米纤维。
The result demonstrated the mechanical properties of PLA nanofibers mixed with calcium phosphate were increased.
结果表明掺加了磷酸钙的聚乳酸纳米纤维的力学性能得到明显提高。
Ni-Fe-Co-P coated carbon nanofibers exhibit fine magnetic and electromagnetic wave absorbing properties.
镍铁钴磷合金镀层纳米碳纤维具有良好的磁性能和微波吸收性能。
The average nanofibers diameter increased by increasing solution concentration and the contents of HA.
在复合比例相同时,直径随着溶液总质量体积比的递增而逐渐增大。
The mechanism of the synthesis of in-situ carbon nanofibers was discussed initially.
并对碳纳米纤维的生长机制进行初步的探讨。
The electrospun nanofibers of biopolymers have many potential applications in tissue engineering and wound dressing.
这种生物高分子纳米纤维在组织工程支架、组织修复等方面有独特的优势。
Therefore, nylon6 nanofibers mat has great potential as a novel material for solid phase extraction.
因此,尼龙6纳米纤维膜作为固相萃取介质具有很大的应用潜力。
Effects of parameters on the average diameters of PAN nanofibers were analyzed by designing of factors.
并用因子设计方法研究PAN原丝平均直径的影响因素;
The dispersion situation of carbon nanofibers in matrix was obviously improved.
处理后纳米碳纤维的分散性有了明显的改善和提高。
Electrostatic spinning is the most important way of making nanofibers and most hopeful for realizing the commercial production of nano. . .
静电纺丝是得到纳米纤维最重要的方法,也是最有可能实现纳米纤维工业化生产的技术。
It is suggested that solid carbon nanofibers can be made by electro-spinning method.
指出静电纺丝技术可制得实心碳纳米纤维。
The preparation of nickel nano-tubes via electroless plating using carbon nanofibers as templates is investigated.
主要研究了以纳米碳纤维为模板,利用化学镀工艺制备镍纳米管的方法。
Vapor-solid growth mechanism of the SiC nanofibers was discussed.
讨论了碳化硅纳米纤维的气-固生长机理。
Chitosan was dissolved in trifluoroacetic acid to fabricate CS nanofibers by electrospinning.
以三氟乙酸为溶剂,采用静电纺丝法制备了纯壳聚糖纳米纤维。
Nanofibers have a lot of preparation methods, electrospinning is one of methods.
纳米纤维的制备方法有很多,其中静电纺丝法是一种直接的方法。
Carbon nanofibers were prepared by carbonization of electrospun PAN nanofibers.
用电场纺丝方法制得了PAN原丝,经碳化制备纳米碳纤维;
In the composite nanofibers, chemical bonding existed between polyvinyl pyrrolidone and iodine to form PVP - I2 complex.
在复合纳米纤维中,聚乙烯吡咯烷酮与碘之间存在着化学键合、形成了聚乙烯吡咯烷酮-碘络合物。
Process conditions and product characterization, such as the structure and orientation of TiO2 nanofibers, are investigated and discussed.
二氧化钛奈米纤维的制程参数,以及其结构和性质将被研究分析并讨论。
Furthermore, the forming process of emulsion electrospun nanotubes and the distribution of Span80 in nanofibers were discussed.
而且由于乳化剂在纤维表面的分布,乳液静电纺丝纳米纤维膜的其亲水性大大改善。
The applications of the electrospun nanofibers in some fields are reviewed.
综述了电纺纳米纤维在一些领域的应用进展。
The as-electrospun nanofibers have many advantages, such as large surface area and high porosity.
用静电纺丝技术制得的纤维具有比表面积大、孔隙率高等优点。
Effect of Conductance of Solution on Diameter vs Axial Coordinate and Stable Length of One Single Nanofibers in Electrospinning
纺丝液的导电性对静电纺丝单根纤维的直径及稳定长度的影响
