气敏性,gas sensitivity
1)gas sensitivity气敏性
1.The sol-gel synthesis andgas sensitivity of SnO_2 thin film;SnO_2纳米薄膜的溶胶-凝胶法制备及气敏性能
2.The preparation of nano Fe_2O_3 powder via W/O microemulsion method and itsgas sensitivity;Fe_2O_3基纳米粉体的微乳液法制备及其气敏性
3.Effect of dopant ongas sensitivity of Fe_2O_3 nano powders;掺杂对Fe_2O_3纳米粉体气敏性的影响
英文短句/例句
1.The Study of ZnSnO_3 Gas Sensitive Material on Preparation Condition、Additives and Gas Sensitivity Characteristic;ZnSnO_3气敏材料的制备、掺杂及其气敏性能研究
2.Study on the Preparation and Gas Sensing Properties of γ-Al_2O_3-Based Thin Films;γ-Al_2O_3基薄膜型气敏材料的制备及气敏性能研究
3.Preparation and gas sensitivity of materials based on nano-titanium dioxide纳米氧化钛基气敏材料的合成与气敏性能研究
4.CO gas sensing properties of tungsten oxide nanowires sensing film氧化钨纳米线敏感膜对CO气体的气敏性能
5.Performance of Thin-Film Forming and Low Temprature Responsing on a Novel Organic Gas Sensitive Materials一种新型有机气敏材料的成膜和低温气敏性能
6.Preparation and Characterization of α-Fe_2O_3-Based Nanomaterials via Microemulsion Processing Route and Their Gas Sensitivity;α-Fe_2O_3基纳米气敏材料的微乳液法制备、表征及气敏性能研究
7.Studies on Preparation and Gas-sensing Properties of Several Semiconducting Metal Oxides Gas-sensing Materials;几种半导体金属氧化物气敏材料的制备及其气敏性能研究
8.Preparation of Nano-ZnO and Al_2O_3 and the Investigation of Their Gas Sensing Properties;纳米ZnO、Al_2O_3的制备及其气敏性能的研究
9.Preparation and Gas Sensing Properties of Nano-ZnFe_2O_4 and Doped-ZnFe_2O_4;纳米ZnFe_2O_4的制备、掺杂及气敏性能研究
10.Improvement of Gas Sensing-characteristics of Formaldehyde Gas Sensor by Doping掺杂对甲醛气敏元件气敏特性的改善
11.Fabrication of the Formaldehyde Gas Sensor and Study of Its Sensitivity;甲醛气敏元件研制及灵敏度特性研究
12.The Gas Sensitive and Light Sensitive Performance of Titanium Dioxide Nanocrystal Material;TiO_2纳米晶材料的气敏及光敏性能研究
13.Relationship between Penicillins Allergy and Food, Aeroallergens Hypersensitivity;青霉素过敏反应与食入性、气源性致敏原过敏反应的相关性
14.Study on Sno_2-Base Traditional Gas-Sensing Material Modification and Gas Sensitive Properties to CO_2;SnO_2基传统气敏材料改性及对CO_2气体的气敏特性研究
15.Studies on the Catalytic Property and Sensing Mechanism of Indium Oxide Based Gas Sensing Material;氧化铟基气敏材料的催化性能及敏感机理研究
16.Study of Preparation and Properties of Tin Oxide Gas Sensing MaterialsSnO_2气敏材料及元件的制备和敏感性能研究
17.Hydrogen sensing characteristics and mechanism of nanosized SnO_2-TiO_2 composite material纳米SnO_2-TiO_2复合材料的氢敏性能及气敏机理
18.The Design, Preparation and Sensing Characteristics of Humidity and Gas Sensitive Materials Based on Polymer and Polymer Composites;高分子及其复合湿敏、气敏材料的设计、制备和敏感特性
相关短句/例句
gas sensing property气敏性
1.Synthesis by sol-gel combustion method andgas sensing property of MgFe_2O_4 nanoparticles;sol-gel燃烧法合成MgFe_2O_4纳米颗粒及其气敏性
2.Thegas sensing property of nano-CuO materials made by microemulsion method;微乳液法合成的CuO纳米材料的气敏性
3.The experimental results show that Fe_2O_3 material has goodgas sensing property and long-term stability to alcohol.Fe2O3对乙醇气体的敏感性能及Fe2O3作为气敏元件的长期稳定性测试结果表明,Fe2O3材料对乙醇有好的气敏性,具有长期稳定性,并加热功率增加,气氛浓度增大,Fe2O3材料的响应时间、恢复时间均缩短。
3)gas sensibility气敏性
1.A Process of preparation was proposed for the fine α—Fe2_O_3 powder and itsgas sensibility was examined in this paper.推荐一种制取细微α—Fe_2O_3粉料的方法,对它的气敏性质作了初步探讨,证明α—Fe_2O_3虽然是稳定相,但制成细微粒子加以掺杂后,在300℃左右也能发生下列反应:3α—Fe_2O_3+H_2→2Fe_3O_4+H2O,制得的气敏元件对H_2有较高的灵敏度。
2.Thegas sensibility of the SnO2 : Sb doped film produced by the chemical vapor deposition of axial flow plasma is studied.该薄膜对NO_2气体有较好的气敏性,在常温下响应时间快,在170℃恢复时间可小于15s。
4)Gas-sensitivity气敏性
1.Gas-sensitivity Studies of Organic Composite Film Sensor with Rapid Response at Room Temperature;有机复合膜与传感器的室温气敏性研究
2.Gas-sensitivity measurements show that conductanceof LB films after embedding increases about one order of magnitude, stability of gas-sensing alsoincreases.在三-(2,4-二将戊基苯氧基)-一-(8-喹啉氧基)酞菁铜中掺杂SnO2超微粒子复合成膜,发现SnO2与酞菁铜分子之间有一定的相互作用,对酞菁铜分子的结构有一定的破坏,气敏性研究表明掺杂后导电率提高一个数量级,稳定性提高。
5)gas sensing气敏性
6)gas sensing property气敏特性
1.Thegas sensing property shows that the Pd-doped SnO2 nanowires have higher sense and faster response.SnO2纳米线的气敏特性表明,掺杂了钯的SnO2纳米线对丙酮灵敏度高,响应快。
延伸阅读
开他敏分子式:C13H16ClNO·HCl分子量:274.19CAS号:1867-66-9性质:白色结晶性粉末。熔点262-263℃。在水中溶解度为20克/100毫升。溶于热乙醇,不溶于乙醚或苯,无臭。制备方法:将新制备的1-溴环戊基-邻氯苯甲酮溶解在甲胺溶液中,得到1-羟基环戊基-邻氯苯基-N-甲亚胺,将其溶解于十氢萘中,回流2.5小时,减压蒸发十氢萘后,用稀盐酸萃取剩余物,用活性炭脱色,用碱调成碱性,和氯胺酮碱([6740-88-1],溶点92-93℃),由戊烷-乙醚重结晶后再制成盐酸氯胺酮。中间体1-溴环戊基-邻氯苯甲酮是邻氯苯甲酸经氯化后,与环戊烯加成,再经溴化得到的。用途:本品是新型非巴比妥静脉麻醉药,有优良的镇痛效能。静脉或肌肉射后很快出现意识模糊,如入梦境,呈浅睡眠状态。临床表现为浅全麻。本品静脉注射约一分钟开始作用,维持约10分钟,进行较大物述时,可连续加药量。主要用于外科短小手述,小儿检查或诊断操作,麻醉诱导及辅助麻醉。