納米生物技術 的英文怎麼說
中文拼音 [nàmǐshēngwùjìshù]
納米生物技術
英文
nanobiltechnology- 納 : Ⅰ動詞1 (收進來; 放進來) receive; admit 2 (接受) accept; take in 3 (享受) enjoy; take deligh...
- 米 : 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
- 生 : 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;...
- 物 : 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...
- 技 : 名詞(技能; 本領) skill; ability; trick; technique
- 術 : 術名詞1. (技藝; 技術; 學術) art; skill; technique 2. (方法; 策略) method; tactics 3. (姓氏) a surname
- 納米 : aalbert
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
-
Application of nanotechnology in biomedical sciences
納米技術在生物醫學中的應用Nanotechnology : its application in researches on biomedicine
納米技術在生物醫藥研究中的應用We master the high - tech biotechnology and nanotechnology research and development of autonomous " anion far - infrared high - purity ceramic glaze multifunctional additives " unique advantages, research and development to produce eco - antibacterial health " premium bone china " " magnesia strengthen porcelain ", " high - white porcelain " three kinds of porcelain products
我公司充分利用自己所掌握的高科技納米生物技術和自主研發的「高純負離子遠紅外多功能陶瓷釉料添加劑」這一獨特優勢,相繼研發生產出多功能生態抗菌保健「高檔禮品骨質瓷」 、 「鎂質強化瓷」 、 「高白瓷」三大瓷種系列產品。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
隨著納米技術和材料科學、生命科學的不斷交叉,納米生物醫用材料已在新型醫用植入材料和介入醫用材料、組織工程和再生醫學材料、新型藥物和基因控釋載體及高效生物診斷材料領域取得較大進展。A new important way in developing new textiles is to develop new textiles by use of after - finishing technology. in this article are introduced the development of burnt - out fabric and crepe fabric based on the use of different raw material, the development of transfer printed fabric, flocked fabric, sueding fabric and sand wash fabric as well as coated and paste printed fabric by use of after - finishing technology and the development of ink - printed fabric, new functional fabric and nano - tech and bilogical enzyme - thch fabric by using high technics
摘要用后整理技術開發紡織新產品是一條重要途徑,文中介紹了利用原料性能開發的爛花產品、軋紋綢、絡織物;利用常用的后整理技術開發的轉移印花織物、植絨織物、磨毛和砂洗織物、塗層織物、塗料印花織物;利用高技術開發的噴墨(色)印花織物、新型功能整理織物、納米技術織物、生物酶整理織物。Fabricating the nanoporous silicon membrane with nanotechnology and bio - mems technology, the thickness of membrane, pore size and distribution, geometry shape and porosity can precisely controlled
摘要採用納米技術和生物微電子機械繫統技術制備納米多孔硅膜,可準確控制膜的厚度、幾何形狀、孔大小、孔分佈和孔隙率。With the development of science and technology, the need of micro system is more and more urgent in many technical fields, such as various operation of cell and polymerized substances, micro surgery, scanning probe microscope ( spm ), butting optical fiber, fine manufacturing etc. with the development of micro - technology, micro mechanism, which has the character of micro size or micro motion is new high technology from microcosmic point of view understanding and reconstructing the world, micro mechanism technology is important means for researching nanotechnology, so the micro stereo vision ( msv ) techniques are demanded urgently in microcosmic domain
隨著科學技術的發展,許多領域越來越迫切地需要微型系統或微動系統,如生物細胞、聚合物的各種操作、微外科手術、掃描探針顯微鏡spm 、光纖對接和微細加工等;而且隨著微技術的不斷發展,以形狀尺寸微小、操作尺度極小為特徵的微機械已成為人們從微觀角度認識和改造客觀世界的一種高新技術;微機械技術還有望成為研究納米技術的重要手段,因此在微觀領域迫切要求顯微立體視覺技術的發展。It has many unique advantages compared with laser interferometry. and it can achieve higher accuracy and resolution than traditional geometry moir. it has been proved to be very useful in many practical applications, such as microelectronics, ultra - precision manufacturing, bioengineering, medicine, space technology, and material science, etc. in this dissertation, key technologies of nanometer displacement measurement by grating interferometry are systematically investigated, which mainly include measuring theories, designing grating interferometer and new subdividing method for moir interference fringes
作為能夠實現納米級位移測量的技術之一,光柵干涉位移測量技術具有激光干涉儀不具備的獨特優點,可以獲得比幾何莫爾術更高的測量準確度、更高的解析度,在諸如微電子、超精加工、生物工程、未來醫學、航天技術、材料科學等眾多領域有廣泛的應用前景。This paper describes several latest industrial microbial technologies in detail, which are the synthesis of the chiral diols by epoxide hydrolase from microbie, cofactors regeneration for redox with fdh, production of nano / micro wire by the phage display, metabolic network rebuilding for conventional fermentation and the application of the organic solvent tolerance and the metagenomics technology
本文綜述了幾項最新的工業微生物技術,主要包括:微生物環氧化水解酶催化合成手性二醇、微生物甲酸脫氫酶用於再生氧化還原反應的輔因子、通過噬菌體展示技術得到納米級金屬絲、代謝網路改造和重建用於傳統發酵生產以及有機溶劑耐受菌和宏基因組技術的應用。Their detailed names are : ( 7 institutes ) guizhou karst resources environment and development research center, guizhou biological research institute, guizhou physical test & chemical analysis center, guizhou metallurgical and chemical engineering institute, guizhou new technology research institute, guizhou botanical garden and guizhou new material research & development base ; ( 3 sections ) guizhou metallurgical science research section, applied mathematics research section and energy research section ; ( 2 stations ) fanjing mountain ecological work - site station and caohai ecological work - site station ; ( 3 bases ) bio research and development center of biological resources / guizhou academy of sciences, longli metallurgical and chemical industrial trial base, and songtao wuling mountains bio - diversity trial base ; ( 2 centers ) guizhou engineering composite material center and guizhou nanometer material engineering center
即:貴州省喀斯特資源環境與發展研究中心、貴州省生物研究所、貴州省理化測試分析研究中心、貴州省冶金化工研究所、貴州省新技術研究所、貴州省植物園、貴州省新材料研究開發基地、貴州省冶金科學研究室、應用數學研究室、能源研究室、梵凈山生態定位工作站、草海生態工作站、貴州科學院貝科生物資源研究開發中心、龍里冶金化工試驗基地、松桃武陵山生物多樣性試驗基地、貴州省工程復合材料中心、貴州省納米材料工程中心。How to obtain the useful biochdrical informaton on this scale is the new tren in the research fie1d of analytical chehascy therefore, single molecule detection, sing1e cell detection, dna ~ and the shaple dna analysis were one of the main research direeons ofanalytcal chendscy nove1 molecular probe and ultrasmali biosensor for real tiine and in vivo detection has been the focuses in the research field of analytical chendstry according to the above mentioned advanced direetions, two pnd of inveshgations has been pdrirmed in thes thesis
人們對生命現象的觀察和研究已經深入到納米尺度和單細胞,單分子的水平,如何在這樣一個尺度范圍內獲取有用的生物化學信息對分析化學的各個研究領域均提出了新的要求。單分子、單細胞檢測、生物晶元的開發以及納米技術的應用漸漸成為現代分析化學研究的主流領域之一。可進行實時、在線、原位、活體檢測的分子探針和超微型生物傳感器成為人們研究的熱點和重點。In order to solve the problem of conglomeration of the nanoparticle and make the nanoparticle disperse evenly in the coatings. in this way, we could succeed in improving the effect of modification. we originally put forward the in - situ sythesising nanoparticle method to modify coatings. through this method, we made use of the technology of the wet chemical method and added the precursor of nanoparticle during the preparation of coatings
在此基礎上,為解決納米粉體的團聚問題,使納米粒子在塗料中有效分散與附聚,以實現納米粒子改性的有效性,原創性地提出了原位生成納米粒子改性塗料制備工藝的新思路:利用濕化學方法制備納米材料的技術,在常規塗料制備的過程中加入所需引入納米粒子的先驅物,直接在顏填料微粒的表面原位合成相應的納米粒子。The product adopts the new internationally popular technology of biological nanometer extraction, with the traits of big load of medicine, high absorptivity, high biological activity, etc
本品採用國際新流行的生物納米萃取技術,具有藥物承載量大,吸收率高,生物活性高等優點。Recently, with the development of the metagenomics, proteomics, metabolomics etc., the industrial microbial technology is under the way of innovation, and is exploiting the new field, such as the electronic technology and nano - micro technology
摘要近年來,隨著宏基因組學、蛋白質組學和代謝組學等技術的發展,工業微生物技術在資源、醫藥和手性合成等領域已經成為熱點技術,並開拓了電子和納米技術等新的應用領域。During the congress, there will be exhibitions of instruments, reagents, software, publications etc. of biotechnology, computation science, nanotechnology, biomedical technology and industrial ecology etc
會議期間將舉辦展覽會,包括生物技術、計算機科學、納米技術、醫藥技術、工業生態學等相關儀器、試劑、軟體、產品、出版物等。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和納米醫學的主要研究目標和內容,討論了發展納米生物學和納米醫學的重要性,論述了我國在國家中長期科學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和納米醫學的研究現狀。For instance, advance in telecommunication, nano - technology, genetic engineering and biotechnology, and the issue of sustainable environment in the past few decades are just a few notable examples. the development of science and technology not only furnishes us with opportunities to get a deeper understanding and introspect of the universe, but more importantly, it brings unprecedented changes to our daily lives. to celebrate the 15th anniversaries of the hong kong science museum and the hong kong university of science and technology, the two institutions jointly organize a leading scholars lecture series
現今的科技發展一躍千里,而部份科學技術在過去十多年更有非常顯著的躍進,例如通訊科技納米技術基因遺傳和生物技術以及環境保護等。這些科技發展不但提高我們對這個宇宙的認識和反思,更重要的是它們為我們的生活帶來了重大的變化。適逢今年香港科學館和香港科技大學均慶祝成立十五周年這大日子,因此,兩間機構特別聯合主辦了一系列講座,並邀請了多位出色的科學家分享他們在這15年裡的科研成果,以及這些技術的未來發展對我們生活的影響。There are many nanomaterials found in nature, the people have been acquainted with the natural nanomaterials gradually. nano - biology is viewed as one of the high - quality technology. its applications refer to economy, medicine and other correlative fields
納米生物技術被視為21世紀高質量的關鍵技術之一,其應用涉及經濟、醫療和其他相關領域,如納米電子、納米材料、與生物和基因工程有關的分子納米技術等。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
納米技術正在不斷滲透到現代科學技術的各個領域,形成了許許多多與納米技術相關的新興學科,如納米物理學、納米化學、納米電子學、納米材料學、納米生物學、納米機械學與納米量測學等。掃描隧道顯微鏡( stm )與原子力顯微鏡( afm )等是納米技術發展的重要基礎,也是納米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。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
作為化學及物理的邊緣學科,以及在另一邊緣學科的化學和生物學開始變得不能區別,多學科研究正在使納米科學及納米技術(不要將納米科學技術固體力學和材料工程相混淆)成為令人神往的新領域。分享友人