1)carbon doping碳掺杂
1.Additionally, the use of porous resin results in the carbon doping of TiO2(about 1%).采用多孔树脂和钛酸四丁酯为起始物制备出碳掺杂的纳米TiO2(RN700A550)。
英文短句/例句
1.The Preparation and the Characteristics of Titanium Oxide Films and Carbon-Doped Ones;二氧化钛薄膜的制备及其碳掺杂改性研究
2.Visibal Light Catalytical Property and Mechanism of Carbon Doped TiO_2 Thin Film碳掺杂氧化钛薄膜可见光催化性能及机制研究
3.First-principles study on field emission of C-doped capped single-walled BNNT碳掺杂闭口硼氮纳米管场发射第一性原理研究
4.SYNTHESIS AND PHOTO-DEGRADATION PROPERTIES OF C-DOPING MESOPOROUS TITANIUM DIOXIDE碳掺杂氧化钛介孔材料的合成与吸附降解性能
5.Effect of Carbon Doping on Helium Behavior in Aluminum Studied by Thermal Helium Desorption Spectrometry氦热脱附谱研究碳掺杂对铝中氦行为的影响
6.Effects of Element-Doping on Electromagnetism Property of Carbon Nanotubes;元素掺杂对碳纳米管电磁性能的影响
7.Preparation of New Aerogels and Dopping Study in Carbon Aerogels;新型气凝胶的制备与碳气凝胶的掺杂
8.Blood-compatibility of La_2O_3 Doped Amorphous Carbon Film氧化镧掺杂非晶碳薄膜的血液相容性
9.Preparation of Composite Carbon Nanotubes Doped Conductive Mica Powder掺杂碳纳米管复合导电云母粉的制备
10.Synthesis of N-doped and Undoped Carbon Nanotubes on Fe/MgO CatalystsFe/MgO催化合成碳纳米管和氮掺杂碳纳米管(英文)
11.The Deposition and Doping Technics of Diamond-like Carbon Films;类金刚石碳膜制备工艺及掺杂性能研究
12.Effect on the Electronic Property of Carbon Nanotube Grafted by Functional Groups or Been Doped;接枝和掺杂对碳纳米管电学性能的影响
13.Doping, Alloying and Carbon-Coating of LiFePO_4 Cathode Materials;磷酸铁锂正极材料的掺杂、合金化和碳包覆优化
14.Research of Gas Sensor Based on Carbon Nanotubes and the Effects of Palladium and Copper Doping;纳米碳管气体传感器及钯和铜的掺杂研究
15.Preparation and Applied Research of Titanium Dioxide Catalyst Doped with Carbon, Nitrogen and Sulfur;碳、氮及硫共掺杂TiO_2光催化剂制备及应用研究
16.The Study of Pd Doped CO Gas Sensors Based on Ceramic Micro-processing陶瓷微加工钯掺杂一氧化碳气体传感器的研究
17.Cobalt containing N-doped carbon aerogels electrocatalysts for oxygen reduction钴掺杂含氮碳气凝胶的制备及性能研究
18.Effects of Nitrogen Doping on Microstructure of Fluorinated Amorphous Carbon Thin Films氮掺杂对氟化非晶碳薄膜微观结构的影响
相关短句/例句
carbon-doped碳掺杂
3)C-doping碳掺杂
1.The effect of C-doping on the crystal structure and light absorbing ability of TiO2 was investigated by XRD,UV-vis spectrum and electrochemistry analyses,which indicated that the doping of TiO2 expanded the light-responding scope,and increased its photocurrent intensity.采用溶胶-凝胶法制备纳米TiO2,经活性炭程序还原制备TiC,并在空气中煅烧制得碳掺杂的TiO2。
4)C-doped碳掺杂
1.The theoretical research on the bond type switch in undoped and c-doped anatase with oxygen vacancy;锐钛矿氧空位与氧空位和碳掺杂两种模型键型转化的理论研究
2.The GaAs epitaxia l layers with heavy C-doped were grown b y LP-MOCVD using CCl 4.采用 CCl4 作为碳掺杂源 ,进行了重掺碳 Ga As层的 L P- MOCVD生长 ,并且对掺杂特性进行了研究 ,研究了各生长参数对掺杂的影响。
5)CH_4-doping碳氢掺杂
6)carbon δ-doping碳δ掺杂
延伸阅读
含不饱和碳碳键聚合物分子式:CAS号:性质:含不饱和碳碳键的功能聚合物主要有三种类型,第一种为聚合物中不饱和键相互共轭,构成线性共轭聚合物,包括聚乙炔型、聚芳杂环和聚苯衍生物。这类聚合物多具有电子导电和光导电特性,经掺杂处理后导电率可以达到半导体,甚至金属导体范围。是重要的导电聚合物。第二种为不饱和键表现为多核芳香烃,或者多核杂环等共轭结构,而各共轭结构相互之间相对独立,处在饱和聚合物的侧链上。这种聚合物多表现出一定光导特性,如聚乙烯基咔唑,是重要的高分子光导材料。第三种为不饱和键在聚合物中孤立存在,如含有肉桂酸酯的聚合物,这种聚合物在紫外光照射下能够发生交联反应,是潜在的负性光刻胶,可以用于印刷制版和集成电路生产。碳碳双键中的π电子还具有配位能力,与过渡金属离子构成类似二茂铁型络合物。
