納電子學 的英文怎麼說
中文拼音 [nàdiànzixué]
納電子學
英文
nanoelectronics- 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...
- 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...
- 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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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,將多壁碳納米管( mwnts )與納米顆粒相結合,制備的納米復合材料用於構建葡萄糖生物傳感器,並研究了它的電化學性質;然後,將mwnts與生物聚合物自組裝制備的納米復合材料用於研究nadh的電化學性質;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 。Ceo22 is used as optical materials, polishing agents, ultraviolet absorption materials, the cleaning catalyst of car ' s waste gases, chemical decolorant of glass, radiation - resisting glass permanent magnet, electronic ceramics etc. if it is processed into nanoparticles, it will exhibit some novel properties led to varied applications. for example, ceo22 nanocrystal is a better promoter of cytochrome c and the stabilizer of zro22 ceramics. because of its high index of refraction and good stability, it is used to produce reduced reflection film
Ceo _ 2是一種廉價而用途極廣的材料,如用於發光材料、拋光劑、紫外吸收材料、汽車尾氣凈化催化劑、玻璃的化學退色劑、耐輻射玻璃、永磁體、電子陶瓷等,其納米化后將出現一些新的性質及應用,如ceoz納米晶是細胞色素c的良好的催進劑,還用作zro :陶瓷的穩定劑,由於ceo :折射率高,穩定性好,常用於制備減反射膜等。Zinescome out of the independent press movement but truly busted out in theearly 1990s, says librarian jenna freedman, who has created a zinecollection at barnard college in new york
雜志出來的獨立新聞運動,但真正打掉了,在20世紀90年代初,圖書館管理員說,珍娜弗里德曼,他們已經創造了電子雜志收集巴納德學院在美國紐約舉行。Abstract : the effect of correction of self - consistent potential on electronic structure in simple cubic nanocrystal particles is calculated by means of the green ' s function method in the tight - binding approximation, taking only the nearest neighbor matrix elements into account. the numerical results show that the electronic energy spectrum is shifted, the chemical potential is not equal to the atomic energy level, the electronic density at each lattice point is changed, and the variation of electronic density at surface lattice point is the largest
文摘:在緊束縛近似下,只計及最近鄰的矩陣元,採用格林函數計算了自洽勢修正對簡立方納米晶體顆粒的電子結構的影響,發現電子能譜發生了移動,化學勢不等於格點原子能級,各格點的電子密度也發生了變化,其中以表面格點的電子密度變化最大。As silicon is the most important semiconductor material in micro - electronic field, one - dimensional nano - structures of silicon play an important role in the fields of device assembly, nanometer - size magnetic device, photoelectronics, and have drawn wide interest in the world
摘要作為微電子領域最重要的半導體材料,硅的一維納米結構在器件組裝、納米尺寸磁性器件、光電子等領域具有重要的作用,已經成為國際上材料科學研究的一個熱點。After graduating from the belarusian state university of informatics and radioelectronics in 1998 with master s degree in computer science, he joined ibm in research triangle park, n. c in 2000
1998年畢業于belarusian state大學的信息學和無線電電子學,獲得計算機科學碩士學位。他在2000年加入了位於北卡羅萊納州的ibm research triangle park 。Duo to the intrinsic characteristics of the gaas material, serai - insulating ( si ) gaas photoconductive semiconductor switches ( pcss " s ) have more obvious advantages in the performance of both high power and ultra - fast switching than those pcss " s made of other materials and then can be widely used in ultrahigh speed electronics, field of high power microwave generation and pulse forming ( pulse sources of high power ultra - fast electromagnetism, ultra - wide - band microwave generator )
半絕緣gaas光電導開關( photoconductivesemiconductorswitches簡稱pcss ' s )具有兼備寬頻帶和高功率容量特性,使其在超高速電子學和大功率脈沖產生與整形技術領域(大功率亞納秒脈沖源、超寬帶射頻發生器等)具有廣泛應用前景。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。A brief introduction to semiconductor spintronics that includes magnetic semiconductor, magnetic / semiconductor compound structures, spin phenomena in the non - magnetic semiconductor quantum well and nanostructures, and spin injection into semiconductor etc. is given
摘要簡單介紹了半導體自旋電子學的研究對象和內容,主要包括磁性半導體、磁性半導體復合結構、非磁性半導體量子阱和納米結構中的自旋現象,以及半導體的自旋注入等。Through the fundamental and applied research activities in this field, the olf - based molecular assembling can be realized, the nanostructured materials with special properties can be obtained, so as to enrich the developing disciplines in 21st century such as olfs - related molecular electronics and nanoelectronocs
通過該研究的基礎研究和應用研究,可以真正實現基於納米洋蔥狀富勒烯的分子組裝,獲得各種性能優異的納米材料,從而豐富富勒烯類碳籠分子的分子電子學以及納米電子學等這些21世紀的新興學科。The self - assembly of quantum structure is a new science concept, which unifies the chemistry and physics, organic and inorganic, and so on. the process using self - assembly to construct quantum structure in mesoscope will greatly promote the development of integrated circuits, microelectronics, nanoelectronics and further, to molecular electronics. the self - assembly of quantum structure is being one of the hottest fields in solid physics, material chemistry, and nanoscience
量子結構組裝是一新的科學概念,它統一化學與物理,有機與無機,在介觀尺度上實現集成,它的實現,將會大大地促進納米集成光電子學,納米集成微電子學的發展,是當前固體物理、材料化學中的活躍領域之一。Stanley williams is an hp senior fellow at hewlett - packard laboratories and founding director of the hp quantum science research ( qsr ) group, with more than 50 scientists and engineers working in areas of fundamental physical sciences
近年來,隨著特徵尺寸持續減小至納米范圍,量子物理學日漸重要,該小組為惠普提供了大量領先於電子學、光學、機械器件領域的挑戰和機會。In this thesis, we will focus on the nanotube structure and synthesis, including disorder multi - wall carbon nanotube, aligned multi - wall carbon nanotube array, cnx nanotube, and bcn nanotube. the effects of growth parameters, which provide scientific basis for pyrolysis of carbon nanotube, were studied systematically. furthermore, layered aligned multi - wall carbon nanotube arrays separate by catalyst particles were synthesized on the surrounding of reaction quartz tube by injection of xylene - ferrocene for the first time, which provided a chance for the accurate measure and potential use of carbon nanotubes
在對碳納米管制備的基礎上,全面系統地研究了碳納米管的影響因素,對熱解法制備碳納米管確定了可供參考的制備工藝參數,在些基礎上,首次成功地直接在反應爐內石英管壁上直接生長分層生長的定向碳納米管,為納米管的性質的測量提供了一定的基礎,而且為定向碳納米管在微電子學領域的應用提供可能性,能成功地實現定向納米管的固定長度生長。Zinc oxide is a kind of excellent multi - functional semiconductor materials, zinc oxide nanowires have a lot of new optical and electronic characteristics, and one of its functions in the electronic frontier is worked as field emission electron source
氧化鋅是一種非常優異的多功能半導體材料,氧化鋅納米線具有很多新穎的光學與電學特性,它在電子學領域的用途之一是作為場發射電子源。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。In addition, a number of courses, e. g., astronomy, relativity, astrophysics, computer simulation, solid state physics, plasma physics, laser physics, photonics, electronics, instrumentation, materials characterization, nanoscience, physics project and graduate courses, etc., are available for the students to choose as electives in order to fulfill their major requirements and to satisfy their own interests
除核心及組別科目之外,本系還設有天文學、相對論、天體物理、電算模擬、固態物理、等離子體物理、光子學、激光物理、電子學、儀器學、材料測試、納米科學、物理專題、及研究院等科目供同學選修。Design of field - effect nano - transistors and measurement of their electrical property
場效應納電子晶體管的構造和電學特性測量In the fabrication process, it is a crucial step to purify and modify the carbon nanotubes
在納電子器件的制備過程中,碳納米管的提純和化學修飾是一個很重要的處理步驟。Carbon nanotubes and semiconductor ( quasi ) one - dimensional nanomaterials are the central building blocks for the next generation of nanoscale electronic devices, and are important for the development and realization of nanoelectronics
摘要一維納米材料(碳納米管、納米線、氧化物納米帶)作為研製納電子器件理想的材料具有重要的科學意義和應用前景。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,對金的納米技術中的地位,包括納米電子學、納米粒子的催化和在生物醫學中的作用進行了評價。分享友人