cnts
美 
英
- 網(wǎng)絡(luò)碳納米管;奈米碳管;納米碳管
例句
Bayer MaterialScience is one of the few companies capable of manufacturing CNTs of a consistently high quality on an industrial scale.
拜耳公司是極少數(shù)具有大規(guī)模生產(chǎn)穩(wěn)定的高質(zhì)量碳納米管廠家之一。
It is shown that the field emission performance is poor if the surface of CNTs is covered with conductive paste or inorganic binder.
當(dāng)導(dǎo)電膠或無機(jī)膠黏劑將奈米碳管覆蓋時(shí),將導(dǎo)致從奈米碳管場發(fā)射效率的下降。
A composite powder comprising CNTs and a matrix and the method of fabrication are disclosed as a second aspect of the application.
本發(fā)明公開了作為本申請(qǐng)的第二方面的包含CNT和基質(zhì)的復(fù)合粉末以及制造方法。
After the surface modification, CNTs was mixed with polyester powder and then been extruded and chipped.
經(jīng)表面改性后,與聚酯粉體共混造粒、擠出。
Since the unique structure, carbon nanotubes(CNTs)have outstanding properties in the axis direction.
碳納米管獨(dú)特的結(jié)構(gòu)使得它在軸向上表現(xiàn)出十分優(yōu)異的性能。
CNTs of these structures have better performances in hydrogen-storage and have greater potential applications.
具有此結(jié)構(gòu)的碳納米管在儲(chǔ)氫等方面應(yīng)具備更為優(yōu)良的效果,從而有著潛在的應(yīng)用前景。
Due to their unique structure and excellent properties, CNTs is an ideal reinforcement addictive for metal matrix composite.
由于其獨(dú)特的結(jié)構(gòu)和優(yōu)良的性能,是一種理想的金屬基復(fù)合材料增強(qiáng)體。
But if the composite antistatic containing CNTs was added, the antistatic property of PP fiber could be improved efficiently.
而添加含有碳納米管的復(fù)合抗靜電劑,可以有效地提高PP纖維的抗靜電性能。
The results indicate that CNTs grown using CH4 and H2 as reaction gases are bent and hollow, with a large average diameter and a low.
結(jié)果表明,用CH_4和H_2為反應(yīng)氣體制備的碳納米管是彎曲和中空的,它們的直徑較大,生長速率較低;
It is found that CNTs with a suitable density, greater aspect ratio possess better field emission properties.
在合適的碳管密度下,具有更大長徑比的碳納米管場發(fā)射性能更好;
The dependence of emission characteristics on geometrical structure, adsorption states and defects at the tip of CNTs is analyzed.
分析了發(fā)射特性與其幾何結(jié)構(gòu)、吸附態(tài)及尖端缺陷等因素的關(guān)系;
In this paper, ferric iron nano-particles were prepared by sol-gel auto-combustion and used as the catalyst of carbon nanotubes(Cnts).
利用溶膠一凝膠自蔓延燃燒法制備出了納米氧化鐵,并用其作為碳納米管制備的催化劑。
CNTs are manufactured from ethylene in a reactor at an elevated temperature using a catalytic process.
碳納米管以乙烯為原材料,在反應(yīng)堆中經(jīng)高溫催化而成。
The "condensing" vapor lowers vapor pressure which then draws out lubricant from the CNTs until the pressure is equalized.
“凝聚”起來的蒸汽減輕了蒸汽的壓力,然后把潤滑劑從CNT中拉出來,直到壓力相等。
Nanocomposites based on CNTs and nanoparticles have been of great interest in chemically modified electrodes in recent years.
基于碳納米管為載體支撐納米顆粒的復(fù)合材料成為近年來化學(xué)修飾電極的研究熱點(diǎn)之一。
Depositing processing and affecting factors of depositing CeO2 nano-particles on the sur face of the CNTs were investigated.
研究了在碳納米管上沉積二氧化鈰顆粒的新工藝及其影響因素。
Hydrophobic surfaces of multi-walled carbon nanotubes (CNTs) were oxidized by boiling a mixture of CNTs and concentrated acid.
通過加熱碳納米管和強(qiáng)酸的混合物,使碳納米管的憎水表面發(fā)生氧化。
L-Cysteine(L-Cys) modified CNTs was synthesized via purification of carbon nanotubes(CNTs) by oxidation process.
通過對(duì)碳納米管氧化,合成了L-半胱氨酸修飾碳納米管。
The synthesis methods and various applications of nano-hybrid CNTs materials are introduced in this article.
針對(duì)納米碳管混成材料的主要合成方法以及其新特性,介紹了其在各方面的應(yīng)用。
The functionalized CNTs are attached to the second substrate by way of the complementary binding partner (203).
通過互補(bǔ)結(jié)合伴侶將所述官能化的CNT連接于第二基板。
Carbon nanotubes (CNTs) have become very promising materials in nanoscience.
碳納米管在納米科學(xué)中有著廣泛的應(yīng)用前景。
The adsorption of a polyethylene (PE) chain on two kinds of carbon nanotubes (CNTs) was studied by classic molecular dynamics simulation.
利用經(jīng)典的分子動(dòng)力學(xué)模擬方法對(duì)聚乙烯(PE)分子在兩種不同類型的碳納米管(CNT)中的吸附進(jìn)行了研究。
This work will establish the foundation for the determination of AA using CNTs.
本研究可為碳納米管測定抗壞血酸的生物電化學(xué)研究奠定基礎(chǔ)。
According to the patent, the large surface area of the CNTs can hold a "nearly infinite reservoir of lubricant. "
根據(jù)這項(xiàng)專利,CNT的巨大表面積可以容納“幾近無限的潤滑劑儲(chǔ)蓄”。
A copper film is coated on carbon nanotubes(CNTs) films by ion beam assisted deposition(IBAD).
本文用離子束輔助沉積(IBAD)方法在碳納米管薄膜表面制備銅薄膜。
Electron sources and CNTs(carbon nano tubes) negative materials are two of the most promising applications of CNTs in the future.
納米碳管在儲(chǔ)能材料和場發(fā)射材料等方面具有非常廣闊的應(yīng)用前景。
Carbon nanotubes(CNTs) has become a novel promising material for hydrogen storage because of the unique behavior between hydrogen and CNTs.
碳納米管在存儲(chǔ)氫氣上表現(xiàn)出來的獨(dú)特性質(zhì),使其最有希望成為一種新的高效的儲(chǔ)氫材料。
The effect of sliding velocity and the current density on electrical friction and wear performance of the Ag-MoS_2-G-CNTs was studied.
研究了滑動(dòng)速度和電流密度對(duì)銀-二硫化鉬-石墨-碳納米管復(fù)合材料電摩擦磨損性能的影響。
For metallic CNTs, the absence of zero band-gap is also justified computationally for non-armchair systems.
對(duì)于非扶手型金屬奈米碳管之零能隙的破壞,也做了計(jì)算上的確認(rèn)。
Synthesis of aligned carbon nanotubes(ACNTs) is a key technique in the field of carbon nanotubes field emission display(CNTs-FED).
定向碳納米管的制備方法是碳納米管場發(fā)射顯示器技術(shù)領(lǐng)域一項(xiàng)十分關(guān)鍵的技術(shù)。
CNTs can also be used as supports for adsorption materials.
碳納米管也可以作為吸附材料的支持。
Because of large diameter, doping of nitrogen atoms make a little impact on the chiral (8, 4)CNTs.
對(duì)于半導(dǎo)體型(8,4)管,由于其管徑較大,氮原子摻雜對(duì)其影響相對(duì)較小。
CNTs and the electrodes.
碳納米管和電極。
First of all, we investigated the buckling behavior of filled (8, 8) and (10, 10) armchair CNTs subjected to axial compression loading.
在壓縮模擬計(jì)算中,主要研究金原子填充(8,8)和(10,10)單壁碳納米管中的情況。
