納米碳 的英文怎麼說
中文拼音 [nàmǐtàn]
納米碳
英文
nanocarbon-
Applications of nm carbon pipe in the field of biomedicine engineering
納米碳管在生物醫學工程領域中的應用Carbon nanotubes modified amperemetric glucose biosensor
納米碳管葡萄糖生物傳感器的研究Study on drying processes of nanosized calcium carbonate
納米碳酸鈣乾燥方式的研究Manufacture and application of nano - calcium carbonate
納米碳酸鈣的性能與應用The present status of activated carbon fibers, carbon nanotubes and expansile graphites as the electrode materials for electrical double - layer capacitors were discussed respectively
對目前已用做電雙層電容器電極材料的活性碳纖維、納米碳管和膨脹性石墨的研究情況分別做了論述。Electronic transport properties of single - wall carbon nanotube with pentagon - heptagon - pair defect
七邊形缺陷的單壁納米碳管的輸運性質研究By adopting x - ray diffraction and transmission electron microscope ( tem ), this thesis has insepectd the size and the structure of the calcium carbonate ( caco3 ) particles. according to hydrophile and lipophile balance ( hlb ), the suitable surface - active agents have been selected and put into lubricating oil with nanometer caco3 particles
本文採用x射線衍射儀和透射電鏡檢驗了納米碳酸鈣粒子的粒徑和內部結構,根據親水親油平衡值( hlb ) ,選擇合適的表面活性劑將其加入到含有納米碳酸鈣粒子的潤滑油中進行表面改性。The carbon nanotubes ( cnts ) are attractive materials for electrodes of supercapacitors due to their superb characteristics : chemical stability, low mass density, low resistivity, and large specific surface area
納米碳管導電性好、比表面積大、微孔集中在一定范圍內,從理論上講是製作超級電容器的理想材料。Application of high temperature hot air stove with heated pipe in the production of nanometer calcium corbonate
高溫熱管熱風爐在納米碳酸鈣生產中的應用Because of novel physical and chemical characteristics, carbon nanotubes are widely used as new sensing materials or modified materials. this paper mainly introduced the characteristic study of biosensors and gas sensors modified by carbon nanotubes. with large aspect ratio, carbon nanotubes have excellent biocatalysis
納米碳管具有新穎的物理化學特性,為傳感器提供了新敏感或修飾材料,將其用於生物酶傳感器和氣敏傳感器,能夠使傳感器具有更好的敏感性。The mechanism of anti - wear and friction reduction of nanometer cacoa has been discussed and individual opinions of the nanometer particles " existing way and effects have been proposed. 1 ) the shape of the nanometer cacos particle is approximate to that of sphericity. its function is similar to that of the miniature " ball bearing "
6 、探討了納米碳酸鈣粒子的抗磨減摩機理,對于納米粒子在潤滑油中的存在方式和作用提出了個人見解: ( 1 )納米碳酸鈣粒子近似為球形,它們起了類似微型「球軸承」的作用,從而提高了摩擦副表面的潤滑性能。The results show that they have good concertedness, making the nanometer caco3 particles receive very good dispersiveness and stability in the oil
結果表明這幾種活化劑同時使用產生了很好的協同效應,使得納米碳酸鈣粒子在潤滑油中得到了很好的分散性和穩定性。While still not evidenced in our experiment, liquid - phase doping of ammonium molybdate solution has been broadly agreed to be able to significantly increase the yield of swnts. we have developed another doping method, solid - phase doping of metal molybdenum at elevated temperature, and discovered that sol - gel prepared catalyst with such doping can be used to grow multi - wall carbon nanotube bundles in a very large scale
對催化劑進行摻鉬處理表明,它可顯著提高催化劑催化裂解甲烷合成納米碳管的能力:作者在高溫下進行了催化劑摻入金屬鉬的實驗,得到了一種性能優異的催化劑,以此制備的多壁納米碳管的呈束狀分佈,所得的粗產物與催化劑之間的重量比達15倍以上。The hydrogen source used is high purity of 99. 9999 %. for comparison, the annealing treatments were processed under ambient pressure in air and nitrogen atmosphere respectively
在kno3溶液中進行液相攙雜的納米碳管,其儲氫能力明顯提高,並且隨摻雜濃度增加而提高。Kno3 solutions ( 0. 1 mol / l and 1. 0 mol / l ) were used to dope carbon nanotubes. the results show that mwnts annealed in nitrogen adsorbed more hydrogen than those annealed in air
室溫下納米碳管吸附的氫氣不能完全脫附,說明納米碳管的吸氫方式包括物理吸附和化學吸附,其中化學吸附比較難于釋放。A carbon nanotube - based normal on under - gate field emission display panel
一種基於納米碳管的常開型后柵極場致發射顯示板Short communication electro - red - luminescence from silicon oxide films embedded nm carbon particles and nm silicon particles
鑲嵌納米碳粒和硅粒氧化硅膜的電致紅光發射研究Ammonia played a critical role in the vertical alignment of cnts, and the possible reason was that in 850 the atomic hydrogen decomposed from ammonia reacted with amorphous carbon to form volatile products to keep the metal surface clean, and mechanical leaning against neighboring tu bes established a morphology of vertical alignment
當基體為單晶硅、催化劑鎳膜厚度為20nm 、氨氣氣氛、生長溫度為850時,得到了定向生長的納米碳管。其原因可能是850時氨氣分解的氫原子和無定形炭生成了易揮發物質,從而保持催化劑的活性使納米碳管依靠相鄰碳管之間的斥力定向生長。This kind of catalyst was very fine, with strong interaction between the support and the active component particle, and high dispersion of such particles on the surface of the support. yield of carbon nanotubes can also be improved greatly by the doping of molybdenum to catalyst
本文所採用的檸檬酸法瞬時燒爆工藝制備的催化劑,顆粒小,載體與活性組分接觸好,活性組分分散均勻,可望實現單壁納米碳管的大規模製備。Effect of moulding techniques on electro - adsorption desalination of carbon nanotube electrodes
納米碳管電極成型工藝對其電吸附脫鹽性能影響的研究分享友人