1) Ni-MnO2 film-type electrode
Ni-MnO2薄膜电极
1.
Manganese dioxide was synthesized by a spray pyrolysis method and Ni-MnO2 film-type electrode was prepared by a spray-coating approach as well.
采用喷雾热解法合成了超细二氧化锰,通过喷涂制作成Ni-MnO2薄膜电极,结合SEM、AFM和电化学测试技术,研究了碱性介质中氧在Ni-MnO2薄膜电极上的电催化还原过程。
2) MnO_2 electrode
MnO2电极
1.
Electrochemical behaviors of MnO_2 electrode doped with nanosized TiO_2;
采用醇水回流液相法制得锐钛矿型TiO2纳米粉体,将其用于MnO2电极的掺杂改性,并对改性样品进行了中等倍率浅度恒流放电、循环伏安等测试。
3) MnO2 electrode
MnO2电极
1.
The rechargeabitity of electrolytic MnO2 electrodes in 7 mol/L KOH solution was studied by methods of the cyclic voltammetry and constant recharge/discharge of model cells.
采用球形Ni(OH)2作为正极添加剂,使MnO2电极在7 mol/L KOH溶液中的可充性得到显著改善。
2.
The nanophase MnO2 was synthesized by solid- phase reaction as elec trode material for electrochemical supercapacitor and the MnO2 electrode was tes ted by cyclic voltammetry(CV),electrochemical impedance spectrometry (EIS) and c onstant charge- discharge curves.
用固相合成法制备纳米MnO2,作为超级电容器材料,通过循环伏安、交流阻抗与恒电流充放电等测试手段对MnO2电极进行分析。
4) film electrodes
薄膜电极
1.
Preparation and its application of titania nanotube composite film electrodes in dye-sensitized solar cells;
二氧化钛纳米管复合薄膜电极制备及其在染料敏化太阳能电池中的应用
5) film electrode
薄膜电极
1.
Experimental investigation of treatment of wastewater containing chlorophenols using boron-doped diamond film electrodes;
金刚石薄膜电极处理含氯酚废水的实验研究
2.
Biocompatible study on polyimide film electrode with optic nerve glial cells of rat
聚酰亚胺薄膜电极与大鼠视神经胶质细胞的生物相容性研究
3.
The film electrode was prepared by smear coating method, and characterized with SEM, XRD, DRS and UV-Vis spectra.
采用涂覆法制备了纳米管钛酸钠薄膜电极,并用TEM、DRS、XRD和SEM对电极材料和电极表面进行了表征。
6) thin film electrode
薄膜电极
1.
The application and prospect of thin film electrode;
薄膜电极技术及其应用进展
2.
Preparation and charge-discharge characteristics of a Prussian blue thin film electrode;
普鲁士蓝薄膜电极的制作及充放电研究
3.
Preparation and electrochemical performance of spinel LiMn_2O_4 thin film electrode;
尖晶石型LiMn_2O_4薄膜电极的制备及电化学性质
补充资料:4,10-dibromodibenzo(def,mno)chrysene-6,12-dione
CAS:4378-61-4
分子式:C22H8Br2O2
分子质量:464.112
中文名称:还原艳橙3RK;还原艳橙RK;还原金黄RK粉;还原艳橙 RK;士林艳橙 RK
英文名称:Vat brilliant orange 3RK;C.I. Vat orange 3;mno)chrysene-6,12-dione, 4,10-dibromo-dibenzo(de;4,10-dibromoanthanthrone;4,10-dibromodibenzo(def,mno)chrysene-6,12-dione;amanthrene brilliant orange rk;bright orange anthraquinone;brilliant orange kkh;brilliant orange rk;c.i. 59300;c.i. pigment red 168;calcoloid brilliant orange rk
性状描述:
生产方法:由1,8-萘二甲酸出发,经氨化;重排;水解;重氮化;芳构化;环合吸溴化而成,再经商品化处理,而制得产品。
用途:主要用于棉纤维及其纺织物的染色和印花。也行之有效用于麻;粘纤;蚕丝;粘棉混纺织物的染色。一般用于作拼色及调整色光。该品的印染品经脲醛或氰醛树脂整理后,色光稍有变化。
分子式:C22H8Br2O2
分子质量:464.112
中文名称:还原艳橙3RK;还原艳橙RK;还原金黄RK粉;还原艳橙 RK;士林艳橙 RK
英文名称:Vat brilliant orange 3RK;C.I. Vat orange 3;mno)chrysene-6,12-dione, 4,10-dibromo-dibenzo(de;4,10-dibromoanthanthrone;4,10-dibromodibenzo(def,mno)chrysene-6,12-dione;amanthrene brilliant orange rk;bright orange anthraquinone;brilliant orange kkh;brilliant orange rk;c.i. 59300;c.i. pigment red 168;calcoloid brilliant orange rk
性状描述:
橙红色粉状,不溶于水;乙醇;丙酮和甲苯;微溶于氯仿(热);邻氯苯酚;吡啶;能溶于二甲苯;四氢萘。在浓硫酸中呈暗绿色,稀释后呈橙色。在碱性保险粉还原液中的隐色体呈红光紫色,在酸性液中为橙色。微不光脆性。属蒽醌类还原染料。
生产方法:由1,8-萘二甲酸出发,经氨化;重排;水解;重氮化;芳构化;环合吸溴化而成,再经商品化处理,而制得产品。
用途:主要用于棉纤维及其纺织物的染色和印花。也行之有效用于麻;粘纤;蚕丝;粘棉混纺织物的染色。一般用于作拼色及调整色光。该品的印染品经脲醛或氰醛树脂整理后,色光稍有变化。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条