用两种不同溅射工艺制备金薄膜电极。
The gold film electrodes were prepared by using two different methods.
薄膜厚度愈大或晶粒度愈大,薄膜电极的放电容量愈低。
The film electrode with bigger grain size or larger thickness had lower capacity.
通过催化裂解法制备了碳纳米管并进一步制备了碳纳米管薄膜电极。
Carbon nanotubes prepared by a catalytic pyrolysis method were considered as active electrode materials for the storage of energy in supercapacitors.
采用电沉积法制备氧化镍薄膜电极材料的过程中,电流效率受多种因素的影响。
The electric current efficiency was influenced by many kinds of factors in the process of electrodeposition.
测定了七种四苯基卟啉化台物制成的薄膜电极的光电压和光电流及其固体粉末的表面光电压谱。
In this paper, the photoelectrochemical properties of seven tetraphenyl-porphyrin compounds have been studied and the surface photovoltage spectra have been measured.
本发明制备的薄膜电极是在室温条件下制备的,大大地节约能源,该薄膜电极可用于 柔性太阳能电池的光阳极。
The thin film electrode of the invention is prepared at a room temperature thus greatly saving energy resources which can be used as the photo-anode of flexible solar cell.
为了解决这一问题,大量的研究工作集中在改进已有的薄膜电极材料的电化学性能和寻找新的性能更好的薄膜电极材料。
Many efforts have been made to find out novel electrode materials and to improve the electrochemical performance of traditional electrode materials.
钴和磷酸盐在电极周围形成了薄膜型的催化剂,这些催化剂就利用电极发射的电子从水中分解氢和氧。
The cobalt and phosphate form a thin-film catalyst around the electrode that then use electrons from the electrode to split the oxygen from water.
这些很薄的双层薄膜放在普通纸张的两面,纸张既是电池的支撑结构,同时也起到分离电极的作用。
These thin bilayer films are layered onto both sides of a piece of ordinary paper, which serves as both the structural support of the battery as well as the electrode separator.
当电流——无论是来自光伏电池、风轮机还是其它来源——穿过电极时,钴和磷酸盐会在电极上形成一层薄膜,氧气就生成了。
When electricity, whether from photovoltaic cell, wind turbine or other sources, runs through the electrode, the cobalt and phosphate form a thin film on the electrode and oxygen gas is produced.
正离子通过一层抗拒电子的薄膜或电解质进入第二电极。
The positive ions are drawn to a second electrode, via a membrane or electrolyte that will not allow electrons to pass through.
在蓄电池里充满了电解质,向其加一薄膜,就形成一个电极。
A battery container is filled with electrolyte, after putting on a film, to form an electrode.
以硼掺杂金刚石薄膜(BDD)为电极,采用电化学氧化的方法对含氯酚废水进行实验研究。
The electrochemical oxidation of wastewater containing chlorophenols was investigated experimentally using synthetic boron-doped diamond(BDD) thin film electrodes.
硅化钛薄膜由于电阻率低和其它一些良好特性,在VLSI的栅电极和互连线中显示出它潜在的优势。
The Titanium silicide film has its potential advantage in forming a gate electrode and interconnection for VLSI because of its low resistivity and some other good characteristics.
在这些应用中,制备供集成铁电薄膜的优质底电极就显得尤为重要。
In these applications, it is essential to fabricate high quality ferroelectric thin films on proper electrode materials, such as conductive oxides.
PPS为非感应式,用聚丙烯电介质和镀金属聚丙烯薄膜串联以铝箔为电极绕制而成,导线采用镀锡铜包线,采用环氧树脂包封。
PPS are non-inductively wound with polypropylene, dielectric and metallized polypropylene film in series with aluminum foil for electrodes using copper-clad steel leads anf epoxy resin coating.
金属化聚丙烯薄膜做介质,金属涂层作电极卷绕而成,多重引出方式环氧树脂包封。
Wound with metalized polypropylene film as medium, metal coat as electrode, various outgoing modes and epoxy resin package.
利用光敏高分子薄膜层实现了ITO象素电极和数据线之间的重迭,得到了更高的开口率。
The high aperture ratio is achieved by overlapping ITO pixel electrode and bus line using a photo_sensitive polymer.
选择合适的电极材料,优化电极多孔薄膜的制备工艺,对改善AMTEC的电特性将是十分重要的。
An appropriate selection of electrode material and optimization of preparation technical skills of electrode porous membrane are very important to improve electric performances of AMTEC.
本发明的顶出光电极可以广泛应用于无机薄膜和半导体发光,以及光电器件和光探测器等方面。
The inventive ejection optical electrode can be widely used in inorganic film and semi-conductor to light, and the photoelectric device and optical detector.
本发明公开了一种薄膜硅光伏器件及其制造方法和背电极以及光伏组 件。
The invention discloses a film silicon photovoltaic device and a manufacturing method, a back electrode and a photovoltaic component thereof.
本发明同时公开透 明导电薄膜的制造方法以及透明导电电极的制造方法。
The invention also discloses a method for manufacturing the transparent conductive film and a method for manufacturing a transparent conductive electrode.
通过比较薄膜的结构,探讨了薄膜底电极对薄膜结构的影响。
The effect of the bottom electrodes on the structures of thin films is investigated by comparing the structures of thin films.
此类聚合物银浆是一种优良的导电材料,可广泛应用于电子工业,制作薄膜开关电极或印制线路等。
Such polymer conductive silver paste is an excellent material that can be widely used in electronic industry, production of membrane switch electrode or printed lines.
应用傅立叶红外仪测量了薄膜的红外谱,用共面蒸铝电极法测量了薄膜的光电导。
We got the infrared spectra by The Fourier Transform Infrared (FTIR) spectroscope and measured the thin films' photoconductivity using Coplanar Aluminum Plating Electrode methods.
实验结果说明,拉伸前后的这类共聚物薄膜均是极性材料,即充电极化后的材料内部同时存在取向偶极子和俘获空间电荷。
Experimental results point out that the said copolymer electret film is a polar material, i. e. there exist both oriented dipoles and deposited space charges in the film after charging.
结果表明,制得的LNO薄膜可用作集成铁电薄膜器件的底电极。
Our results showed that the LNO thin films could be used as bottom electrodes for integrated ferroelectric thin film devices.
在金属和石墨基底电极上用恒电位沉积法制备出普鲁士蓝(PB)薄膜,研究了影响膜生长的多种因素;
A thin film of Prussion Blue(PB) is electrodeposited on the metal or graphite substrates. Many factors affecting growth of the film are investigated.
在金属和石墨基底电极上用恒电位沉积法制备出普鲁士蓝(PB)薄膜,研究了影响膜生长的多种因素;
A thin film of Prussion Blue(PB) is electrodeposited on the metal or graphite substrates. Many factors affecting growth of the film are investigated.
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