electron transport 中文意思是什麼
electron transport
解釋
電子傳遞-
The function of electron transport in the mitochondrion is to phosphorylate adp to atp
線粒體中電子傳遞的作用是使adp磷酸化成atp 。 -
When the inhibitors existing, the ways that the electrons enter the electron transport chain coupling with the sulfide - stimulate atp production show significantly tissue - specific characters and corresponded with the tissues " physiological function
當抑制劑存在時,其相關的電子傳遞方式具有顯著的組織特異性,並與其生理功能相對應。 -
Crista ( pl. cristae ) the structure formed by folding of the inner mitochondrial membrane, giving a large surface area for electron transport
嵴(嵴膜) :線粒體內膜向內室褶疊形成的結構,可以為電子傳遞提供更大的表面積。 -
The 3d electrons increased with the content of mn doping increasing, and the electrical property increased accordingly as the electron transport path improved. it is confirmed that all the orthorhombic perovskite phase which is formed initially at the heat treatment temperature of about 600c and thoroughly above 850c are observed in the lcmto thin film deposited on si ( 100 ) substrate by rf magneto - controlled sputtering
確認了採用射頻磁控濺射法于si ( 100 )基板上生長的薄膜至多在600熱處理已開始形成晶相,形成的晶相全部是正交晶系鈣欽礦相,提高熱處理溫度,薄膜中晶相含量相對增大,高於850后晶相基本形成完畢。 -
The value of carotid / total chlorophyll of treatment 1. 4031, 1. 9080, 1. 0971 times that of the control respectively. s02 decreased the produce of apparent photosynthetic electron transport ( etr ), over photochemical quantum yield ( yield ), non - photochemical quenching ( q
處理100天以後,二、三年生苗木處理多酚氧化酶的活性分別是對照的5 . 7551 、 2 . 1989倍;它們的過氧化物酶活性則是對照的4 . 8484 、 15 . 6403倍。 -
After the stolon had suffered from severing disturbance, clonal ramets could keep photosynthetic organ from being damaged through the plastic responses of the chlorophyll fluorescence traits, such as increasing nonphotochemical quenching of chlorophyll fluorescence ( npq ), decreasing actual photochemical efficiency of ps ii in the light ( f / fm " ) and photochemical electron transport rate ( etr ). moreover, the clonal ramets could also increase water use efficiency by means of decreasing stomatal conductance
在匍匐莖受到切斷干擾后,臭柏能通過提高非光化學猝滅( npq ) 、降低ps實際光化學量子產量( f fm 』 )和表觀光合電子傳遞速率( etr )等葉綠素熒光特性的可塑性反應來保護小枝光合機構不被破壞,並且可以降低氣孔導度以提高水分利用效率。 -
In the first chapter of the dissertation, we review the development history and the trend of xerography technology, present a series of organic semiconductive materials and their device structures, and bring forward three ways to prepare single - layered photoconductor with high performance by dimixing, preparing nanomaterials, and synthesizing new organic electron transport materials
論文第一章首先評述了電子照相技術的發展歷史和發展趨勢,同時介紹了有機光電導材料的種類和光電導體的結構,提出可通過復合、納米化和研製新型的電子傳輸材料三種手段來制備高性能有機單層光電導體。 -
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。 -
Coenzyme q ( ubiquinone ) a coenzyme that is an essential component of the respiratory electron - transport chain
輔酶q :一種在呼吸作用的電子傳遞鏈中起重要作用的輔酶。 -
In eukaryotic cells, the enzymes and other components of the respiratory electron - transport chain are located in the inner membrane of the mtochondria
真核細胞中,電子傳遞鏈中的酶與其它成分位於線粒體內膜。 -
The absorbed light energy excites chlorophyll a molecules, causing them to emit high - energy electrons that pass down an electron - transport chain, releasing energy to synthesize atp ( photophosphorylation ) and nadph
吸收的光能可激發葉綠素a產生高能電子,經電子傳遞鏈傳遞后,釋放能量合成atp (光合磷酸化)和nadph 。 -
The photosynthetic pigments and accessory pigments are bound to these membranes, which also contain the components of the electron - transport chain and enzymes needed for the light - dependent reactions of photosynthesis
光合作用色素和一些色素附和物附在基粒的膜上,可能還包含有電子傳遞鏈的組分,以及光合作用光反應所需的酶。 -
They act as electron - transport agents and play an important role in the electron - transport chains of respiration, photosynthesis, and the microsomal system responsible for the desaturation of fatty acids in heterotrophic bacteria
它們作為電子傳遞物在呼吸電子遷移鏈、光合作用及微粒體系統中起重要作用,它還負責異養細菌中脂肪酸的去飽和作用。 -
In the third chapter, the organic single - layered photoreceptors were prepared, which consisted of polycarbonate matrix containing dispersed n, n ' - diethyl - 4 - aminobenzaldehyde - l - phenyl - l ' - ( a - naphthyl ) - hydrazone ( bah ) and 2, 4, 7 - trinitryl - fluorenone ( tnf ) as bipolar charge transport materials ( ctm ), as well as tiopc as charge generation material ( com ). the influence of organic electron transport material on the photosensitivity in the photoreceptors was investigated
在論文的第三章,我們研究了有機電子傳輸材料2 , 4 , 7 -三硝基芴酮( tnf )對有機單層光電導體( tiopc bah pc體系)光敏性能的影響,發現少量的tnf ( tnf bah 0 . 005 )可使得單層有機光電導體的光敏性能大幅度增強,並探索了其影響因素和微觀機理。 -
Compared with green light - emitting device, blue oled has many problems such as brightness, efficiency, stability, and color saturation, in this study we investgaited the blue oleds systemically : 1 ) double heterosturcture oled was charaterized. due to the introducing of electron transport layer alq3 and hole - blocking layer balq3, the energy matching was more reasonable and the carrier injecting was more effective in the double - layer device. the maximum efficiency and luminance of this device attained to 1. 90 lm / w and 10, 000 cd / m2, respectively
其次,由於一直以來藍光oled器件的研究處于相對落後的狀態,其發光亮度、效率、穩定性和色純度都無法綠光器件相比,所以本論文在以下幾個方面對藍光器件的性能進行了系統的研究: 1 )研究了雙異質型藍光oled器件,由於本研究引入了空穴阻擋層,使得載流子的復合和激子的擴散被限定在發光層內,器件的發光效率達到了1 . 90lm / w ,最大亮度達到了10000cd / m2 ,比傳統結構器件的效率和亮度提高了約一個數量級; 2 )制備了結構為ito / npb / balq3 / alq3 / mg : ag的oled器件,研究發現,當改變各有機層厚度時,器件的電致發光光譜發生了從綠光到藍光的移動。 -
For the application of sic devices to radiation fields, it is important to know the irradiation effects and characteristics of sic materials and devices. the main contributions in this thesis are as following : temperature - and electric field - dependent electron transport in 6h - s1c is studied by single - particle monte carlo technique. the physical model used in the simulation is developed considering the main scattering mechanisms in details
為了能充分發揮sic抗輻照的優勢和潛力,本文首先對sic區別于常規半導體的特性作了系統的研究:用單粒子montecarlo方法研究了6h - sic的電子輸運規律,模擬的結果體現了6h - sic具有良好的高溫和高場特性以及遷移率的各項異性,其橫向遷移率和縱向遷移率相差近5倍。 -
The recent development of organic electron transport materials are reviewed as well. several technologies for charge carrier mobility measurement are summarized and compared, and a series of basic principles for designing high - performance organic electron transport materials are suggested as well
本章還重點綜述了有機電子傳輸材料研究的最新進展,總結和比較了有機材料載流子遷移率的測試方法,並提出了設計高性能有機電子傳輸材料的若干原則。 -
When a mutually doped transitional layer is introduced, no matter it is added to the interspace of electron transport layer and hole transport layer or to the interspace of the hole transport layer and hole inject layer, it can reduce the defects of the interface and result in the increase of brightness and the decrease of the operating voltage obviously
我們在器件中引入了互摻過渡層結構,發現不管在電子傳輸層和空穴傳輸層之間,還是在空穴傳輸層和空穴注入層之間採用這樣的摻雜結構,都能夠有效減少有機層間的界面缺陷態,明顯提高了器件的亮度,降低了器件的工作電壓。 -
Electron transport through dna molecule
分子的電子傳輸特性 -
The electron transport rates of chloroplasts were depressed after chinese cabbage and mustard had been infected with tumv, whose extents reached 6. 4 % and 64. 6 % respectively. the decline of photosystem ii ( psii ) activities mainly contributed to the drop of electron transport rate, whose degrees reached 56. 9 % and 34. 3 %, with the statistical result p < 0. 01
青菜和芥菜葉綠體電子傳遞全鏈的電子傳遞速率各降低6 . 4和64 . 6 ;光系統( ps )的電子傳遞活性各下降56 . 9和34 . 3 ,與健康對照的差異水平均達到極顯著;光系統( ps )的電子傳遞受抑程度較輕,分別為25 . 8和24 . 7 。
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