電荷分離 的英文怎麼說
中文拼音 [diànhéfēnlí]
電荷分離
英文
charge separation-
Charge-separated resonance structures do not contribute very much to the resonance hybrid of butadiene.
電荷分離的共振結構對丁二烯沒有很大的貢獻。They lack the ability to delocalize the electron deficiency on oxygen.
它們沒有使氧原子上的部分正電荷離域的能力。The remaining negative charge can be spread out, or delocalize over three atoms.
剩下的負電荷被分散或離域遍及到三個原子。Electrophoresis is a technique that separates macromolecules according to their net electrical charge and shape.
電泳是根據分子的靜電荷和形狀分離大分子的技術。Recognition of anion by dual fluorescent sensor based on the intramolecular charge transfer in p - dimethylaminobenzoylhydrazine
分子內電荷轉移雙重熒光體識別陰離子研究The negative photoconductivity effect was found in the dimixing phthalocyanine composites. the experiment results indicated that the negative photoconductivity effects were closely related with the partial charge transfer from the center metals to phthalocyanine rings, and the separation efficiency of photocarriers was a key factor to the photoconductivity
結果表明,共混復合后,其光電導性能表現出負效應,並發現酞菁中心金屬與其相連的氮原子之間的部分電荷轉移是引起復合體系光電導性能變化的根本原因,同時復合體系中的電子空穴對的分離效率是影響光電性能的一個重要因素。Abstract : this paper, by analyzing the effect of differences of mineral structure of 2 1 layer minerals, the properties of their interlayer charge and changes of some properties caused by weathering on the attractive force for interlayer cation, reached the conclusion that : the fixation capacity is determined by the ratio of the total amount of interlayer charge and that of tetrahedral charges. the relationship of interlayer cation fixation and octahedral structure of secondary minerals is probably different from that of primary minerals. the oxidation and reduction of variable valence cations can greatly influence the cation fixation capacity
文摘:分析2 1型礦物的結構差異、層間電荷性質以及在風化過程中某些性質的變化對層間陽離子吸引力的影響,對已有報道中一些矛盾的結果或不具普遍意義的結論進行了討論.得出幾個較為明確的結論:層間總電荷與四面體電荷所佔比例大小共同決定礦物對層間陽離子的固定能力;原生礦物中八面體結構與層間陽離子固定間的關系對次生礦物而言,也許並不一致;八面體中可變價陽離子的氧化還原,可導致礦物固定陽離子能力發生較大變化The main use voltage principle, the macro - molecule water - soluble matter or peptide - lean, by the anoin and the cation, bring anoin by way of the pore, the sweat gland and the sebaceous glands aperture, will enter the skin
主要利用電壓原理,將大分子的水溶性物質或多勝(月太)離子化,經正、負離子,將帶負電荷槍實彈的物質經由毛孔、汗腺和皮脂腺開口,進入皮膚。As the two charge distributions separate, leaving positive and negative sheaths.
當兩種電荷分佈開始時,就留下正離子鞘和負離子鞘。Sam has three ionizable groups besides the sulfonium pole : the carboxyl and the aminic groups of the amino acidic chain with pk 1. 8 and 7. 8 respectively and the aminic group of the purine with pk 3. 4. in an acid environment sam is positive charged, so it could be adsorbed by weak - acid cation exchange resin
Sam除具有一個帶正電荷的鋶外,還有三個可離子化的基團: pk _ a分別為1 . 8 、 7 . 8的氨基酸鏈上的羧基和氨基, pk _ a為3 . 4的嘌呤環上的氨基。In this paper, the effect of interface properties of sio2 / sic on performances of n - channel sic mofet are studied systematically : incomplete ionization of impurity in sic is analyzed based on the crystal structure of sic materials. the effect of incomplete ionization of impurity on c - v characteristics of p - type 6h - sic mos is researched based on charge - sheet model for sic mos inversion layers
本文就sio _ 2 / sic界面質量對n溝sicmosfet性能的影響做了深入的研究:從碳化硅材料的晶體結構出發分析了碳化硅材料中雜質的不完全離化,採用sicmos反型層薄層電荷數值模型,研究了雜質不完全離化對p型6h - sicmosc - v特性的影響。A trend of photo - induced electron transition from p - type pc to n - type organic semiconductor was strongly supported by the data of sps and fisps measurements, the wire - like configuration of the tio2 tubule nanostructure benefited the electron - transport thereby improved the efficiency of the disassociation of the photogenerated carriers
表面光電壓測試結果表明,復合材料中存在著強烈的從p -型酞菁材料到n -型氧化物半導體材料的光致電荷轉移。而且tio _ 2的納米管和線狀結構提高了電子的傳輸效率最為明顯,使光生電荷的分離得到顯著改善。In this paper, based on the amplitude transport equation of fast varying field and the low frequency disturbance equation of electr on density, the evolutions of the density distribution of charged particles and the collapse of electric field have been calculated numerically in two dimensions with three field components under the condition of transverse wave
所以本文採用了ftcs有限差分格式方法,利用二維三分量軸對稱,對空間飛行體與壓縮區內等離子體非穩態相互作用過程進行數值模擬,得到了電荷密度擾動與電場的變化情況。It has high selectivity in adsorpting water, polar molecule or polarizable molecule on account of the existing of mighty coulomb field and polar interaction in the internal of crystal cave of zeolite, the high electric field gradient and the uneven surface caused by the exposure of exchangable cation of equilibrium framework negative charge in framework structures
由於分子篩晶穴內部有強太原理工大學碩士學位論文摘要大的庫侖場和極性作用,再加上骨架中大量平衡骨架負電荷的可交換陽離子的暴露造成的高電場梯度及表面的不均性,使其對水、極性分子及可極化的分子具有高選擇的吸附性能。The main origin of the perpendicular magnetic anisotropy in tbco amorphous films is the static interaction between the aspheric distribution charges of non - s tb ions and the aberrant crystal field produced in sputtering and deposition process. the magnetic dipole interaction is in a secondary cause
對于tbco非晶垂直磁化膜而言,具有非球對稱電荷分佈的非s態離子tb與濺射沉積薄膜過程中產生的畸變晶格場之間的靜電相互作用構成了tbco非晶薄膜垂直磁各向異性的主要部分, tbco薄膜內的磁偶極相互作用構成了其次要部分。That is to say, high frequency modulational field radiated from the antenna system of moving bodies influents the charge distribution in plasma, while the disturbance of the charge distribution influents the field conversely
也就是說,在壓縮區內,飛行體天線輻射出的高頻調制場,影響著等離子體中的電荷分佈,而電荷分佈的擾動又反過來影響場量。The main results are as follows : 1. the propagation of an ultrashort intense pulse laser beam in low - density plasmas is investigated analytically. relativitistic pondermotive force and space - charge effects are included, and an equation describing the evolution of the laser spot size is derived
考慮有質動力與電荷分離場的平衡,推出了超短超強脈沖激光在低密度等離子體中的折射率、電子密度和電荷分離場的表達式以及激光束斑的演化方程。The separation of an electrolyte into ions of opposite charge
電解(作用)一種電解質分解為帶有相反電荷的離子的過程Monolayer altered the properties of the surface of silicon in that it made the surface more attractive to ptcda or tcpc. surface photovoltaic spectrum and xps showed the charges transfer occured in the interface between the perylene monolayer and silicon leading to strong photovoltaic response in 300 ~ 400nm
Ptcda共價鏈接單層膜增強了硅基與ptcda之間的電荷傳輸,以及光致電荷分離的能力,因此沉積在單層膜上的ptcda在300nm到400nm之間有很強的表面光生伏特效應。In the near field, the image and radiation pattern of electric and magnetic field are different and varies with distance, the image of electric field is similar to the charge distribution of the source while the image of magnetic field is similar to the source current distribution
在越近之近場中,電場與磁場影像及場型各不相同,距離越近差異越大,電場之影像越近似於電流源之電荷分佈,磁場之影像則越近似於電流源之電流分佈。分享友人