nano-electron 中文意思是什麼

nano-electron 解釋
納電子
  • nano : 阿卡那瑟德領主
  • electron : n. 【物理學】電子。 the electron beam 電子束。 the electron theory 電子(學)說。
  1. Conglomeration of fillers also easily fall off from the matrix, and all these result in wear mass loss increasing. the worn surfaces of the composites having 5 phr, 10plir, 20 phr nano - al2o3 are respectively studied by using the scanning electron microscopy ( sem )

    另外,在相同滑動條件下,隨著粒徑的增大,尼龍6 / a120 :復合材料的磨損量上升,納米級粒子填充的復合材料較微米粒子填充的復合材料耐磨性能要好。
  2. ( 2 ) the images of aam were characterized by scanning electron microscope ( sem ), transmission electron microscope ( tem ) and atom force microscope ( afm ). the results indicated that pores in the as - prepared aam templates owned nearly the same diameter, parallel arrangement, huge density and formed nano - pore arrays

    ( 2 )用sem 、 afm和tem等分析方法對aam的形貌進行了表徵,結果表明:制得的aam中含有大小均勻一致、排列規整、密度較大的納米孔陣列,為模板-電沉積法制備cdse納米線陣列奠定了良好的基礎。
  3. The dispersion of the modified nano - sized caco3 in the pvc matrix was observed in tem ( transmission electron microscope ). the influences of surface treatment and the contents of nano - sized caco3, extrusion technology and other additives on the properties of the composites were investigated. the results show that the surface treatment of the nano - sized caco3 particles with wet method enlarged the specific surface area and reduced the surface energy of the particles, and made the particles dispersed at the nanometer level in the pvc matrix, which improved the mechanical properties of the composite

    本課題為了解決納米caco _ 3在pvc中的分散問題,對納米caco _ 3粒子進行了濕法處理,採用雙螺桿擠出法制備出具有良好性能的pvc -納米caco _ 3復合材料;對復合材料的力學性能和加工性能進行了測試;利用tem ( transmissionelectronmicroscope ,透射電子顯微鏡)觀察了納米caco _ 3粒子在pvc基體中的分散情況;討論了納米caco _ 3的表面處理方法、納米caco _ 3的含量、復合材料的制備工藝以及各種助劑對復合材料各項性能的影響。
  4. Encapsulating materials of epoxy resin are modified with hgh, nano - sio2 and organophilic montmorillonite, in the present investigation, the microstructue, some properties and influence factors about nano - sio2 and organophilic montmorillonite modified encapsulatig materials have been systematically studied using x - ray diffraction, electron microscopy and differential thermal analysis measurement techniques

    隨著航空、電子等事業的發展,灌封器件的高性能化對灌封材料提出了越來越高的要求。探索制備環氧灌封材料的新方法,尋求提高其使用性能的有效途徑是該領域研究的重要課題。
  5. In this dissertation, high quality ( 002 ) textured zno films were prepared on silicon substrate using electron beam evaporation method. in addition, zno nano - particle material embedded into mgo thin films was prepared by a co - evaporation ( thermal and electron beam evaporation, simultaneously ) method and a following post - annealing process in oxygen ambient

    本文介紹了採用電子束蒸發方法在si襯底表面上制備出了具有c軸擇優取向的高質量氧化鋅薄膜材料,另外,還採用共蒸發(通過電子束蒸發與熱蒸發同時進行)及後退火的簡單方法制備出包埋到介電物質mgo薄膜中的zno量子點材料。
  6. By studying and using conventional 1c process in combination with electron beam lithography ( ebl ), reactive ion etching ( rie ) and lift - off process, several efficient results are produced : semiconductor and metal nano - structures are fabricated ; the matching problem of photolithography and electron beam lithography is well solved ; the process efficiency is improved ; the process is offered for the controlled fabrication of nano - structures by repetitious process testing ; several nano - structures such as si quantum wires, si quantum dots, double quantum dot structures and tri - wire metal gate are firstly fabricated by using ebl and rie processes

    研究利用常規的硅集成電路工藝技術結合電子束光刻,反應離子刻蝕和剝離等技術制備半導體和金屬納米結構,很好地解決了普通光刻與電子束光刻的匹配問題,提高了加工效率,經過多次的工藝實驗,摸索出一套制備納米結構的工藝方法,首次用電子束光刻,反應離子刻蝕和剝離等技術制備出了多種納米結構(硅量子線、量子點,雙量子點和三叉指狀的金屬柵結構) 。
  7. The composites with different compatibilizers and nano - sio2 content were characterized by means of mechanical testing, differential scanning calorimetry ( dsc ), x - ray diffraction ( xrd ), fourier transformation infra - red spectroscopy ( ft - ir ), transmission electron microscope ( tem ), scanning electron microscope ( sem ), etc. the relation between the structure and property of the composites was discussed in this thesis

    研究了不同增容劑、納米sio _ 2含量對復合材料的沖擊強度、拉伸強度等力學性能;並利用差熱掃描量熱分析( dsc ) 、 x射線衍射譜( xrd ) 、紅外吸收光譜( ir ) 、掃描電鏡( sem )等分析,討論了復合材料結構與性能的關系。
  8. Scanning electron microscopy ( sem ) was employed to examine the worn surfaces ^ shape of wear debris ^ dispersion of nano - a ^ os and wear mechanism

    採用掃描電子顯微鏡觀察、分析磨損表面形貌,磨屑形狀,納米粒子分佈情況及磨損機理。
  9. Saed ( selected area electron diffraction ), hrem ( high resolution electron microscopy ) and eds ( energy dispersive spectrum ) experiments confirmed that both the porous layer and lamellar layer are composed of nano - crystalline ha ( hydroxyapatite )

    實驗中採用了選區電子衍射、高分辨觀察和x - ray能譜等實驗手段,分析了羥基磷灰石各層的形態、成分與微結構。
  10. The tests of tg & dsc and electron microscope under high temperature of nano - composite wc - co powder indicate that the sintering temperature is about 1320 " c. but the further practical sintering work shows that the sintering temperature is 1350

    首先對原料粉末進行了tg & dsc測試,對原料坯體進行了高溫顯微鏡觀測,結果表明其燒結溫度為1320左右,進一步的燒結實驗表明實際的燒結溫度為1350 。
  11. The fabrication of the nano - structures and the study of nanoelectronic devices ( single electron transistor - set, single electron memory, etc. ) are one of the most important projects of the nanoelectronics and nanotechnology, of a study field with most vitality, progressive future, and it may bring magnitude effect to new technology revolution and industry in future

    納米結構的制備和納米電子器件(單電子晶體管、單電子存儲器等單電子器件)的研究是納米電子技術中最重要的研究內容之一,是最具有生命力、最具有發展前途,對未來新技術革命和產業可能帶來革命性作用的研究領域之一。
  12. Nano - scale coo was obtained by the decomposition of coco3, which synthesized by the liquid reaction. the grain - size of coco3 and coo were measured by laser diffraction grain - size analysis. the microstructure of the samples was observed using transmission electron microscope ( tem )

    採用激光粒度測試儀測量了試驗制備的碳酸鉆和氧化亞鉆的粒度大小,並利用透射電子顯微鏡( tem )觀察了納米碳酸鉆和納米氧化亞鉆的形貌。
  13. Sem and tem analysis show that the sample co - doped by nickel and titanium has nano - pellets with morpha like snow and great surface, which the initial discharge capacities in organic electrolyte reached 155. 8mah / g and which were more than theoretic one farad electron discharge capacities ( 148mah / g ). during the charging and discharging cycle, the change rate of the crystal volume was only 0. 233 % and the sample showed long cycle life

    樣品在有機電解液的初始電容量( 155 . 8mah / g )大於理論1f電子放電容量( 148mah / g ) ,通過充放電前後xrd衍射圖顯示,放電前後晶胞體積變化僅為0 . 233 ,樣品循環性能好。
  14. 2 nano ceramic material is infiltrated into plasma - spraying coatings by laser - cladding nano - material. the microstructures of the coating series gotten are studied in detail with x ray diffraction, scanning electron microscopy. it is concluded that after laser cladding the density of the nano material infiltrated coating is improved and superior to density of laser - remelting coating

    ( 2 )在等離子塗層的基礎上,利用激光熔覆將納米陶瓷材料熔滲到等離子塗層中,然後採用x射線衍射、掃描電鏡、能譜儀等,對陶瓷系列塗層的微觀組織與結構進行了詳細分析。
  15. The morphology and structure of ti - dlc films were investigated by high resolution electron microscopy ( hrem ), atomic force microscopy ( afm ), scanning electron microscopy ( sem ) and raman spectroscopy. the mechanical properties were investigated by a mts nano indenter xp system with a berkovich indenter. the ti - dlc film with a titanium content of 27at. %

    利用高分辨電子顯微鏡( hrem ) 、原子力顯微鏡( afm ) 、掃描電鏡( sem )和拉曼光譜儀等手段分析了沉積ti - dlc薄膜的成分、形貌和結構,使用帶berkovich壓頭的納米壓痕儀( mtsnanoindenterxp )測試了薄膜的力學性能。
  16. In addition, an immunosensor based on the horseradish peroxidase and antibodies functionalized liposome was constructed. the details are summarized as follows : ( 1 ) nano - materials have good biocompatibility. they can keep the activity of biomolecules due to the desirable microenvironment, and enhance the direct electron transfer between the enzyme ’ s active sites and the electrode

    具體內容如下: 1 .納米材料有很好的生物兼容性,由於周圍有利的微環境,所以它們能很好地保持酶的活性,並且能增強酶的活性位點和電極之間的電子轉移能力。
  17. In the procedure, carbon nanotubes were oxidized by nitric acid and then neutralized with naoh to create carboxyl surface groups which were used to adsorb ni ( superscript 2 + ) ions, thereafter the adsorbed ni ( superscript 2 + ) ions were chemically reduced into ni nano - particles as a catalytic center for electroless nickel deposition, all these were further confirmed by infrared absorption spectra and electron microscopic observations

    碳納米管經硝酸氧化和堿中和后表面生成羧基,利用羧基吸附鎳離子,之後吸附的鎳離子被化學還原為鎳的納米微粒並成為化學鍍鎳的催化活性中心。
  18. Chapter 4 preparation of tio2 nano - films and its surface structural morphology tio2 nano - films were successfully fabricated by a sol - gel process on glass substrate. the morphology and microstructure of films were investigated via atomic force microscope ( afm ), x - ray diffractometer ( xrd ) and transmission electron microscopy ( tem )

    凝膠法制備了tio _ 2納米溶膠,在不同的處理方式下以刮片法制幾種無機納米材料的制備、表徵與應用備了兩種ti仇多孔納米薄膜,並利用afm , tem , xrd等測試方法對膜表面結構及物理化學特性進行了表徵。
分享友人
分享到 Line

分享到臉書