生物微電子學 的英文怎麼說
中文拼音 [shēngwùwéidiànzixué]
生物微電子學
英文
biomicroelectroni- 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...
- 電 : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 學 : Ⅰ動詞1 (學習) study; learn 2 (模仿) imitate; mimic Ⅱ名詞1 (學問) learning; knowledge 2 (學...
- 生物 : living things; living beings; organisms; bios (pl bioi bioses); biont; thing; life生物材料 biol...
- 電子學 : (研究電子或離子運動規律及其應用的科學) electronics
- 電子 : [物理學] [電學] electron
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Using cd, cu, zn and cr as experimental toxicants and crucian as experimental creature, we employed the environmental biotechniques ( flame atomic absorption spectrophotometry, the method of improved pyrogallol autoxidation and electron microscopy ) to study the acute toxicity and secure concentrations of heavy metals to crucian ; the accumulation and distribution of mixed heavy metals to fingling crucian ; the activities of superoxide dismutase ( sod ) of gill and liver tissues and the hispathological and ultrastructural change of superfine structure of liver and kidney of crucian after cadmium exposure. through which, we intended to fully and systemically study the toxic influence of heavy metals to fish, and preliminarily discuss the influence of heavy metals pollution to the diversified level of fish such as individual, organ, tissue, cell and molecule. thus we tried to provide scientific evidence to establish preventative management measures, avoid and relieve the harm of heavy metals pollution to aquicolous ecosystem in time
隨后以這幾種重金屬作為實驗毒物,以鯽魚為實驗動物,應用環境生物技術、火焰原子吸收分光光度法、鄰苯三酚自氧化法、透射電鏡等技術研究了重金屬cu 、 zn 、 cd和cr對鯽魚的急性毒性及其安全濃度評價、混合重金屬在鯽魚幼體組織內的積累和分佈、 cd對鯽魚鰓和肝臟中sod活性的影響、 cd對鯽魚肝細胞和腎細胞超微結構的影響等,全面和系統地研究了水環境中重金屬暴露對魚類的毒性影響,初步探討了重金屬污染對魚類的個體? ?器官? ?組織? ?細胞? ?分子等各水平層次的影響,為制定漁業生產上預防性的管理措施提供科學依據,及時避免或減輕重金屬污染對水生生態系統造成的損害。Authigenic minerals and their occurrence in the meso - cainozoic reservoir sandstones were observed and analyzed by optical microscope, sem, epma and xrd
採用光學顯微鏡、掃描電鏡、電子探針及x射線衍射觀察分析了塔里木盆地中新生界儲層砂巖自生礦物及其在巖石中的產狀。On thebasis of describing mineralogy characteristics such as combination electron minro - form , crystallinity of clay minerals , the relationship between coal series clay minerals in themesozoic era in ningxia area and coal metamorphism was analyzed
在概述粘土礦物組合、電子顯微形態和結晶度等礦物學特徵的基礎上,探討了寧夏地區中生代煤系粘土礦物與煤變質的關系。In the developing process, research on microelectronic technology and biology and medicine are always mutually stimulated
摘要微電子技術與生物醫學之間有著非常緊密的聯系。Flexibility, processability, low cost, interesting optical - electric properties and so on make organic materials be a good substitute for inorganic ones. modification of inorganics by organics can change surface properties of inorganics, for example, frictional, optical, electrical, chemical and biocompatible properties. on the other hand, many interests have been shown to integration of functional organics in si - base devices because of their great promise in optoelectronic, micro - electronic and sensor applications
通過對無機半導體材料進行有機改性,可以改變無機材料的表面化學性質,生物相容性質,光電性質等等,因此,有機無機復合材料在光電器件、生物傳感、微電子器件的應用領域有著很好的應用前景,尤其是在微電子工業中廣泛使用的硅材料與有機光電材料的復合更是備受關注。This product basis physics , bionics and the resistance induction of human body survey theory , and combination plenty of clinical practices develop development , it is attacked that this product not only has to bang, needle jiu , massage, fiery jar, scrape sha , the 6 big functions of traditional chinese medicine such as massage pattern and step - down, geng the comprehensive prescription patterns such as shoulder and waist leg beautiful body, and more have acupoint alone to seek, electricity jiu the functions such as therapy
該產品根據物理學、仿生學、人體電阻感應探測理論、生物電學、中醫針灸學、磁療共振學、中國古典醫學及現代微電子技術,並結合大量臨床實踐而研製開發的,該產品不但具有捶擊、針灸、推拿、火罐、刮痧、按摩等六大中醫功能模式和降壓、頸肩、腰腿美體等綜合處方模式,而更獨有穴位查找、電灸療法等功能。Laser physics is compositive synthesis of the quantum theory, wireless technology, microwave spectroscopy and solid physics, and it ? also the brilliant production of close - knit combine in science and technology, theoretics and practice. after the naissance, the developments of laser physics emerge rapidly, our living, behavior and concept were affected and influenced by laser
激光物理的創立,是人類認識自然道路上的一座里程碑。它是現代物理學的一項重大成果,是20世紀量子理論、無線電電子學、微波波譜學以及固體物理學的綜合產物,也是科學與技術、理論與實踐緊密結合產生的燦爛成果。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。China attaches importance to relations with belgium, and would like to promote political dialogue, economic and trade co - operation, exchanges in the biological, pharmaceutical, and micro - electronics fields, as well as co - operation in new fields such as energy, space, and life science
中國政府高度重視發展中比關系,願加強雙方各級別政治磋商和對話,進一步擴大雙邊經貿合作,加強雙方在生物、制藥、微電子等高科技領域的合作,積極開拓能源、航天、生命科學等新的合作領域。Simplicity to use and ease to real - time output etc. the quartz crystai microbaiance based on the response of mass change, is a sensitive mass sensor and very suitable to the detection of biomacromoiecuiar. now it is expected to find widely use in ciinic chemistry, pharmaceutics anaiysis, environmentai detection and so on
而作為一種很有發展前途的傳感器件,壓電體聲波傳感器具有高靈敏度、寬響應譜、價格低廉、操作簡單及方便適時的輸出等優點;尤其是基於質量效應構制的石英晶體微天平具有很高的質量響應靈敏度,特別適合生物大分子的測定而廣泛用於臨床化學,藥物分析,環境質量等諸多領域。With the engineering thermophysics subject as a main theory basis, the boiler, the steam turbine, the internal combustion engine and the other new, being developed power machinery and system as the research object, the application of engineering thermodynamics , heat transfer, computer system control theory, environmental science, microelectronics technology, energy - saving technology and other knowledge , study the process and the basic law of fuels chemical energy and liquid kinetic energy to converse to the power securely and efficiently and low ( or no ) impurely ; study the energy conversion process systems and technology of equipment automatic control ; study the producing mechanism and emission control technology of combustion pollutants ; study energy - saving technologies and the development of new energy technologies
熱能工程是以工程熱物理學科為主要理論基礎,以鍋爐、汽輪機、內燃機和正在發展中的其它新型動力機械及系統為研究對象,運用工程熱力學、傳熱學、計算機自動控制理論、環境科學、微電子技術、節能技術等學科的知識,研究燃料的化學能和液體的動能安全、高效、低(或無)污染地轉換成動力的基本規律和過程;研究能量轉換過程中的系統和設備的自動控制技術;研究燃燒污染物生成機理與排放控制技術;研究節能技術與新能源的開發技術。With the development of science and technology, it is urgent for people to discover the laws of micro - world by high precision observing devices and analyzing system in such fields as gene engineering, biomedicine, life science, material science, microelectronics and so on
隨著科學技術的發展,在基因工程、生物醫學、生命科學、材料科學、微電子學等眾多研究領域,人們迫切需要高精密的觀測設備以及分析系統去發現和揭示微觀世界的本質規律。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
納米技術是現代科學(混沌物理、量子力學、介觀物理、分子生物學)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)結合的產物,納米技術又將引發一系列的科學技術,例如納米材料學、納電子學、納機械學等。Applied for the coating of walls or floors in the workshop of microele - ctronics, optics appliances, computer, gmp medicine, gas and biolo - gical engineering or in computer house, machine house or hospital operation room where electrostatic should be prevented
微電子、光學儀器廠、電腦製造行業、無塵凈化車間、計算機房、機房、 gmp藥業、醫院手術室、瓦斯廠、生物工程等需防靜電場所的地面及墻面塗飾。New conducting polymer materials together with advanced microelectronics and computational techniques have enabled the development of a new range of chemical sensors capable of mimicking some aspects of the biological system
新的傳導聚合材料結合先進的微電子和計算技術,已經使能模仿生物系統某些方面的一個新的化學傳感器領域得到了發展。Based on the basic concept and the survey of current research situation, the interaction between two fields and the development in the biomedical electronics, such as biomedical sensor, nerve electrode, implantable electronic device, monitoring technology, biochip, molecule and biomolecular electronics and bionic device are reviewed
一方面微電子技術的發展,將大大地推動生物醫學的發展,另一方面生物醫學的研究成果同樣也將對微電子技術的發展起著巨大的促進作用。Due to their versatile function, oxide thin films can be widely applied in the fields of microelectronics, optoelectronics and microelectronic mechanism systems. thus the fabrication technology and growth control approach have been extensively investigated
氧化物薄膜由於其豐富的物理性質可廣泛地被應用於微電子學、光電子學和微電子機械繫統等領域,對其制備工藝和生長控制的研究愈加受到重視。Gene chip or dna microarray is a newly developed technology combining molecular biology, microelectronics, physics, chemistry, and other sophisticated approaches. dna microarray technology began in early the 1990s, has been developing quickly in recent years and has been applied to genomics, post - genomics and other biotechnology studies
20世紀90年代,在生命科學領域中出現了一門新興的尖端技術- - - -基因晶元技術,它綜合了分子生物學、微電子學、物理、化學等領域的最新科學技術,經過幾年的發展,目前已經廣泛應用於人類基因研究中。It is high - tech interdisciplinary and covers micro - mechanics, micro - electronics, micro - optics, fluid mechnanics, automatic control, physics, chemistry, viology, and material science, etc. and it has been attracting much attention around the world
微機電系統研究的涉及微機械學、微電子學、微光學、流體力學、自動控制、物理、化學、生物學以及材料科學等學科,是一個多學科交叉的、高技術的邊緣學科,越來越被世人所重視。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。分享友人