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Ti/RuO₂-Co₃O₄é˜³æžæžæ°§æ€§èƒ½

Electro catalytic activity of titanium based on RuO₂-Co₃O₄ for oxygen evolution

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ã€Authorã€‘ WU Hong-jun1,RUAN Qin1,WANG Bao-hui1,TENG Jia2,FU Bo1( 1. Lab of New Energy Chemistry and Environmental Science,College of Chemistry and Chemical Engineering,Daqing Petroleum Institute,Daqing 163318; 2. Jinzhou Petrochemical Company of PetroChina,Jinzhou,Liaoning 121000,China )

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ã€æ‘˜è¦ã€‘ ä¸ºåˆ¶å¤‡é«˜æ€§èƒ½æžæ°§ç”µæž,é‡‡ç”¨çƒåˆ†è§£æ³•åœ¨400â„ƒæ¸©åº¦ä¸‹åˆ¶å¤‡Ti/RuO2(x)-Co3O4(1-x)(0â‰¤xâ‰¤1,xä¸ºRuçš„æ‘©å°”åˆ†æ•°)å¤åˆæ°§åŒ–ç‰©ç”µæž,é€šè¿‡ç”µæžå¼€è·¯ç”µåŽ‹ã€å¾ªçŽ¯ä¼å®‰æ›²çº¿åŠæžåŒ–æ›²çº¿ç‰åˆ†æžå…¶åœ¨1.0mol/LKOHæº¶æ¶²ä¸çš„æžæ°§å‚¬åŒ–æ´»æ€§åŠæžæ°§åŠ¨åŠ›å¦.ç»“æžœè¡¨æ˜Ž,æ‘©å°”åˆ†æ•°ä¸º10%çš„RuO2ä½¿ç”µæžå‚¬åŒ–æ´»æ€§æ€¥å‰§å˜åŒ–,æ‘©å°”åˆ†æ•°ä¸º50%çš„RuO2å¤åˆæ°§åŒ–ç‰©ç”µæžå…·æœ‰æœ€å¤§çš„ä¼å®‰ç”µè·(429.63mC.cm-2)ã€æœ€é«˜çš„è¡¨é¢ç²—ç³™åº¦(1786),å…¶æžæ°§æ€§èƒ½æœ€ä½³;Ti/Co3O4åœ¨é«˜ã€ä½Žè¿‡ç”µä½åŒºåŸŸç”µæžå¯¹OH-çš„ååº”çº§æ•°åˆ†åˆ«è¿‘ä¼¼ä¸º1.0å’Œ2.0,å«RuO2ç”µæžååº”çº§æ•°å‡ä¸º1.0.æ›´å¤š è¿˜åŽŸ

ã€Abstractã€‘ Ti-supported RuO2(x)-Co3O4(1-x) (0â‰¤xâ‰¤1.0) electrodes were prepared by thermal decomposition at 400 â„ƒ. Electrocatalytic activity in 1.0 molÂ·dm-3 KOH solution was studied recording open-potential,cyclic voltammetry and polarisation curve. The results showed that 10 mol% RuO2 could dramatically change catalytic activity. Catalytic performance of the mixed oxide electrodes containing 50 mol% RuO2 was the best,with the greatest Volta metric charge,429.63 mCÂ·cm-2,and the highest morphology factor (1 786.37). The reaction order of Ti/Co3O4 with respect to [OH-] at low and high over potential are 2.0 and 1.0 respectively,and the electrodes containing RuO2 are both 1.0.æ›´å¤š è¿˜åŽŸ