納米生物學 的英文怎麼說

中文拼音 [shēngxué]
納米生物學 英文
nano biology
  • : Ⅰ動詞1 (收進來; 放進來) receive; admit 2 (接受) accept; take in 3 (享受) enjoy; take deligh...
  • : Ⅰ名詞1. (稻米) rice 2. (泛指去殼或皮的可吃的種子) shelled or husked seed 3. (姓氏) a surname Ⅱ量詞(公制長度的主單位) metre
  • : Ⅰ動詞1 (生育; 生殖) give birth to; bear 2 (出生) be born 3 (生長) grow 4 (生存; 活) live;...
  • : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
  • : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
  • 納米 : aalbert
  • 生物學 : biology
  • 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
  1. Lj03 ) glucose biosensor based on glucose oxidase immobilized in poly ( o - aminophenol ) film on pt - nanoclusters / polypyrrole - nanowires composite modified glassy carbon electrode, j li, x lin, biosensors and bioelectronics, ( 2007 ) 22 : 2898 - 205. may

    聚吡咯鉑復合材料的制備及其應用於葡萄糖傳感器的研究,李靖,林祥欽,中國化會第十屆有機分析暨分析術研討會2007 - 10 - 18武漢市
  2. Application of nanotechnology in biomedical sciences

    技術在中的應用
  3. Application of nanoscience and nanotechnology in biomedicine

    科技在中的應用
  4. Applications of nm carbon pipe in the field of biomedicine engineering

    碳管在工程領域中的應用
  5. Glucose biosensors were then constructed by these nanocomposites, and their electrochemical properties had been explored. secondly, the self - assembled nanocomposite was formed by mwnts and biopolymer, and was used to study the electrochemical properties of nadh. and finally, the modified electrode which was formed by immobilizing small molecular onto electrode surface, was used to detect dsdna in the solution

    本論文首先,將多壁碳管( mwnts )與顆粒相結合,制備的復合材料用於構建葡萄糖傳感器,並研究了它的電化性質;然後,將mwnts與聚合自組裝制備的復合材料用於研究nadh的電化性質;最後,本文還將小分子自組裝固定在電極表面,用於測定溶液中的dsdna 。
  6. Recent advances in nacre used as bone implant are reviewed in this paper

    摘要珍珠層是一種天然的陶瓷材料,一直是材料者研究的焦點。
  7. High quality cube - like mnse2 and sphere - like ( - mnse micro - crystals have been obtained in aqueous solution at low temperatures ( 100 ( c ~ 180 ( c ). by using tellurite as reactant, uniform cote and nite nanocluster wires were successfully synthesized through a co - reduction process

    用亞碲酸鹽代替亞硒酸鹽,上述方法被成功應用到金屬碲化的動力調控合成中,通過共還原反應機理,利用新的元素co 、 ni與活性碲,於水溶液中合成了cote和nite的一維線。
  8. Under the inspiration of self assembly in biology, chemists are now making use of weak interaction between different moleculars to get well arrayed supramolecular to construct nano - structure

    家在體系自集現象的啟示下,用各種類型的相互作用去創造整齊排列的大分子,用於構築結構的材料。
  9. 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

    碳管具有新穎的理化特性,為傳感器提供了新敏感或修飾材料,將其用於酶傳感器和氣敏傳感器,能夠使傳感器具有更好的敏感性。
  10. The review summarizes the development of ultrasound contrast agent for targeted drug and gene delivery to tumors. from these study we can draw a conclusion that ultrasound - targeted microbubble therapy will become a new method in treatment of tumor

    隨著各種兼具診斷治療雙重作用的超聲探頭和靶向微泡造影劑包括級微泡造影劑的研製,以及對超聲效應的深入研究,超聲微泡介導腫瘤靶向治療將為臨床腫瘤的治療帶來新的希望。
  11. The basic and application researches of nanobiomaterials have been the hot topic in the materials research for biomedicine and biotechnology, which have developed quickly in biomedical implant and intervention medicine, tissue engineering and regenerative medicine, and drug / gene delivery system

    隨著技術和材料科命科的不斷交叉,醫用材料已在新型醫用植入材料和介入醫用材料、組織工程和再材料、新型藥和基因控釋載體及高效診斷材料領域取得較大進展。
  12. Is a combination of modern science ( chaotic physics, quantum mechanics, mesoscopic physics, molecular biology ) and technology ( computer technology, microelectronictechnique & stm, nuclear analysis technology ). nano - technology will inspire a round of s & t revolution, such as nanomaterial, nanoelectronics, nanomechanics

    技術是現代科(混沌理、量子力、介觀理、分子)和現代技術(計算機技術、微電子和掃描隧道顯微技術、核分析技術)結合的產技術又將引發一系列的科技術,例如材料電子機械等。
  13. The application of carbon nanotube atomic force microscopic probes in the structural biology

    管原子力顯微鏡針尖在結構研究中的應用
  14. Because of their great application potentials in biomedicine, magnetic nanoparticles have got great and wide attention in the fields of nanomaterials and nanobiology

    摘要磁性顆粒因其潛在的應用價值而成為材料領域研究的前沿。
  15. Focused on nanobiology and nanomedicine, this article elucidates its main research targets and contents, discusses the important of researches in this field, introduces the tasks and objectives of the corresponding researches in the national long - and mid - term science and technology development planning, and also describes the present research status in china

    摘要本文闡明了納米生物學的主要研究目標和內容,討論了發展納米生物學的重要性,論述了我國在國家中長期科和技術發展規劃綱要中所規定的任務和研究方向,描述了我國納米生物學的研究現狀。
  16. Progress of nanotechnology in biomedical engineering area

    研究的進展與發展趨勢
  17. The investigation on the powerful laser induced micro - plasma by the radiation focused on a solid surface plays an important role in super - conduct films, nanometer materials, laser isotope separations, medicine, biology, and other industrial applications

    對高功率密度激光輻照固體表面形成激光微等離子體的研究,在研製超導薄膜,材料,同位素分離,醫,以及其他工業應用方面有重要的理論指導意義和廣泛的應用前景。
  18. The branches of nano - technology include nano - physics, nano - chemistry, nano - electronics, nano - material science, nano - biology, nano - mechanics and narto - measurements, etc. with the development of nano - technology, scanning probe microscopy ( spm ), especially atomic force microscopy ( afm ), has been the most widely demanded and applied tools for researchers to pursue more ambitious goals, and has actually become the indispensable instruments for nano - scientists and engineers

    技術正在不斷滲透到現代科技術的各個領域,形成了許許多多與技術相關的新興科,如電子材料納米生物學機械量測等。掃描隧道顯微鏡( stm )與原子力顯微鏡( afm )等是技術發展的重要基礎,也是科技工作者必不可少的研究工具,其中又以afm需求更大,應用領域更為廣泛。
  19. Buckminsterfullerene and its elongated cousins the carbon nanotubes or buckytubes were discovered, it suddenly became clear that our understanding of many factors governing the atomic structure of carbon and other materials was quite na

    作為化理的邊緣科,以及在另一邊緣科的化開始變得不能區別,多科研究正在使技術(不要將技術固體力和材料工程相混淆)成為令人神往的新領域。
  20. From the point of view of potential applications, the position of gold in nanotechnology, including nanoelectronics, nanoparticle catalysis and applications in medicine was reviewed

    從應用的角度出發,對金的技術中的地位,包括電子粒子的催化和在中的作用進行了評價。
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