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研磨微电极
相关语句
  abrasive microelectrode
     Voltammetric Behavior of Powder LiMn_2O_4 on Abrasive Microelectrode
     用研磨微电极研究LiMn_2O_4的循环伏安行为
短句来源
     Cyclic Voltammetric Performance of Bi_2O_3 Particles on Abrasive Microelectrode
     用研磨微电极研究Bi_2O_3的循环伏安行为
短句来源
     The new type of Φ0.1mm Pt disc microelectrode, so-called abrasive microelectrode,was made by polishing method.
     用研磨抛光的方法制备了 Φ0 .1mm的 Pt微盘电极 (研磨微电极 )。
短句来源
     Abrasive Microelectrode and its Application in Electrochemical Study of Particle Material
     研磨微电极在粉末材料电化学研究中的应用
短句来源
     It was found that OH - concentration could influence CV performance of Bi 2O 3, indicating that OH - is involved in the electrochemical reaction of Bi 2O 3. So the plateau peak on CV curves reported in some literatures can be explained in terms of the continuous change of OH- concentration in the cavity of microelectrode, no plateau was observed with disk-like abrasive microelectrode.
     OH-浓度对Bi2 O3 的循环伏安行为有影响 ,说明KOH参与了Bi2 O3 的电化学反应 ,从而证明文献中使用粉末微电极所得循环伏安曲线出现的氧化平台是由于电极凹槽中OH-浓度持续变化造成的 ,而盘状研磨微电极上不存在凹槽 ,其循环伏安曲线上不出现平台。
短句来源
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  “研磨微电极”译为未确定词的双语例句
     The Pt microelectrode(=0.1 mm), made by abrasive polishing method with Bi 2O 3 powder was used to study cyclic voltammetric performance of Bi 2O 3 particles in alkaline solutions. The electrochemical measurments could be more quickly carried out than that by using composite electrode and cavity microelectrode.
     用研磨抛光的方法制备了Pt研磨微电极 ( 0 1mm ) ,将其用于研究Bi2 O3 粉末在强碱性溶液中的循环伏安行为 ,结果表明 ,Pt研磨微电极可以大幅度提高测量速度。
短句来源
     The SEM and EDS results showed the microelectrode covered abrasively by Bi-2O-3 powder is stable in 9.0mol/L KOH solution during voltammetric cycling.
     用这种研磨微电极研究强碱性溶液中 Bi2 O3 的循环伏安行为时 ,通过 SEM形貌分析和 Bi元素 X射线能谱分析 ,认为这种电极具有较高的稳定性。
短句来源
  相似匹配句对
     Fine Grinding of Carbon Black
     碳黑的研磨
短句来源
     Technology of Microelectrodes
     微电极技术
短句来源
     Abrasive Microelectrode and its Application in Electrochemical Study of Particle Material
     研磨微电极在粉末材料电化学研究中的应用
短句来源
     Microelectrode and its application
     微电极及其应用
短句来源
     Ultra-precision lapping
     超精密研磨
短句来源
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The Pt microelectrode(=0.1 mm), made by abrasive polishing method with Bi 2O 3 powder was used to study cyclic voltammetric performance of Bi 2O 3 particles in alkaline solutions. The electrochemical measurments could be more quickly carried out than that by using composite electrode and cavity microelectrode. The SEM results showed the Bi 2O 3 particles were still present on the abrasive microelectrode after immersing in 9 mol/L KOH for 15 h and 10 times voltammetric cycling. The redox potential...

The Pt microelectrode(=0.1 mm), made by abrasive polishing method with Bi 2O 3 powder was used to study cyclic voltammetric performance of Bi 2O 3 particles in alkaline solutions. The electrochemical measurments could be more quickly carried out than that by using composite electrode and cavity microelectrode. The SEM results showed the Bi 2O 3 particles were still present on the abrasive microelectrode after immersing in 9 mol/L KOH for 15 h and 10 times voltammetric cycling. The redox potential and current of main cycle voltammograms are comparably identical for both abrasive microelectrode and cavity microelectrode. It was found that OH - concentration could influence CV performance of Bi 2O 3, indicating that OH - is involved in the electrochemical reaction of Bi 2O 3. So the plateau peak on CV curves reported in some literatures can be explained in terms of the continuous change of OH- concentration in the cavity of microelectrode, no plateau was observed with disk-like abrasive microelectrode.

用研磨抛光的方法制备了Pt研磨微电极 ( 0 1mm ) ,将其用于研究Bi2 O3 粉末在强碱性溶液中的循环伏安行为 ,结果表明 ,Pt研磨微电极可以大幅度提高测量速度。SEM研究表明 ,该电极上的Bi2 O3 粉末在9mol/L溶液中连续浸泡 15h ,并进行 10周循环伏安扫描后电极上仍有Bi2 O3 粉末存在。在研磨微电极和粉末微电极上所作的循环伏安曲线在Bi2 O3 的还原 /氧化峰电位、峰电流变化规律等方面有较好的一致性 ,表明可以用研磨微电极代替粉末微电极进行电化学实验。OH-浓度对Bi2 O3 的循环伏安行为有影响 ,说明KOH参与了Bi2 O3 的电化学反应 ,从而证明文献中使用粉末微电极所得循环伏安曲线出现的氧化平台是由于电极凹槽中OH-浓度持续变化造成的 ,而盘状研磨微电极上不存在凹槽 ,其循环伏安曲线上不出现平台。

The new type of Φ0.1mm Pt disc microelectrode, so-called abrasive microelectrode,was made by polishing method. The SEM and EDS results showed the microelectrode covered abrasively by Bi-2O-3 powder is stable in 9.0mol/L KOH solution during voltammetric cycling. The cyclic voltammetric results of normal Bi-2O-3 and nano-Bi-2O-3 at 10mV/s by abrasive microelectrode can be excellently explained with the redox mechanism of Bi-2O-3. So, abrasive microelectrode can be applied in rapid electrochemical evaluation of...

The new type of Φ0.1mm Pt disc microelectrode, so-called abrasive microelectrode,was made by polishing method. The SEM and EDS results showed the microelectrode covered abrasively by Bi-2O-3 powder is stable in 9.0mol/L KOH solution during voltammetric cycling. The cyclic voltammetric results of normal Bi-2O-3 and nano-Bi-2O-3 at 10mV/s by abrasive microelectrode can be excellently explained with the redox mechanism of Bi-2O-3. So, abrasive microelectrode can be applied in rapid electrochemical evaluation of particle material.

用研磨抛光的方法制备了 Φ0 .1mm的 Pt微盘电极 (研磨微电极 )。用这种研磨微电极研究强碱性溶液中 Bi2 O3 的循环伏安行为时 ,通过 SEM形貌分析和 Bi元素 X射线能谱分析 ,认为这种电极具有较高的稳定性。使用这种微电极对常粒 Bi2 O3 、纳米 Bi2 O3 进行了循环伏安研究 ,结果表明纳米 Bi2 O3 比常粒Bi2 O3 具有更高的电化学活性。说明研磨微电极可以较好地应用于某些粉末材料的电化学研究中。

Voltammetric behavior of spinel lithium manganese oxide on abrasive microelectrode was studied in 1mol/L LiPF6/EC+DMC+EMC(1:1:1), and the morphology and the manganese distribution of the abrasive microelectrode were analyzed by SEM and EDS, respectively. Results show that spinel lithium manganese oxide is more stable on. abrasive microelectrode than on powder microelectrode and has more reversibility for lithium ion extraction/intercalation.Two spinel lithium manganese oxide samples synthesized by solid state...

Voltammetric behavior of spinel lithium manganese oxide on abrasive microelectrode was studied in 1mol/L LiPF6/EC+DMC+EMC(1:1:1), and the morphology and the manganese distribution of the abrasive microelectrode were analyzed by SEM and EDS, respectively. Results show that spinel lithium manganese oxide is more stable on. abrasive microelectrode than on powder microelectrode and has more reversibility for lithium ion extraction/intercalation.Two spinel lithium manganese oxide samples synthesized by solid state process and sol-gel method were compared. The sample synthesized by solid state process shows its better stability for cycling and reversibility for lithium ion extraction/intercalation. This result conforms with the difference in crystallization of two samples, obtained by XRD. Abrasive microelectrode can be used to estimate the cyclic stability of spinel lithium manganese oxide and the reversibility for lithium ion extraction/intercalation fast and effectively.

研磨微电极研究了尖晶石锂锰氧化物在1mol/L LiPF6/EC+DMC+EMC(1:1:1)电解液中的循环伏安行为,并用SEM分析了电极的表面形貌和锰元素分布.结果表明,尖晶石锂锰氧化物在研磨微电极上较在粉末微电极上稳定,嵌脱锂离子过程也更可逆.比较发现,固态法合成的尖晶石锂锰氧化物的循环稳定性较溶胶-凝胶法合成的要好,这一结果与XRD结晶度分析结果吻合,说明研磨微电极能够快速有效地评价尖晶石锂锰氧化物的循环稳定性及锂离子嵌脱过程的可逆性.

 
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