2004
DOI: 10.1023/b:catl.0000029528.60669.cf
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TiO2Supported Nano-Au Catalysts Prepared Via Solvated Metal Atom Impregnation for Low–Temperature CO Oxidation

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Cited by 18 publications
(3 citation statements)
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“…Typical reducing agents are H 2 [63] where strength of reduction is controlled by temperature [64,65] and NaBH 4 [66] which have strong reduction strength at room temperature Comparing Pt-CeO 2 /C and Pt-CeO 2/ C-1 in Fig. (7a, 7b) we can easily notice that, for 2400 rpm, Pt-CeO 2 /C had a higher current density value at 0.65V/RHE; -2.240 mAcm -2 than that of Pt-CeO 2 /C-1 that equals to-1.597 mAcm -2 , this could be related to the fact that, smaller particle sized electrocatalysts produced from using single reducing agent may tend to agglomerate and hence reduce the activity of the whole electrocatalysts, hence the oxide reduction extent in the preparation method affects the Pd and Au performance towards the ORR which is related to the catalyst synthesis procedures [67][68][69][70][71].…”
Section: Study Of Oxygen Reduction With Rdementioning
confidence: 99%
“…Typical reducing agents are H 2 [63] where strength of reduction is controlled by temperature [64,65] and NaBH 4 [66] which have strong reduction strength at room temperature Comparing Pt-CeO 2 /C and Pt-CeO 2/ C-1 in Fig. (7a, 7b) we can easily notice that, for 2400 rpm, Pt-CeO 2 /C had a higher current density value at 0.65V/RHE; -2.240 mAcm -2 than that of Pt-CeO 2 /C-1 that equals to-1.597 mAcm -2 , this could be related to the fact that, smaller particle sized electrocatalysts produced from using single reducing agent may tend to agglomerate and hence reduce the activity of the whole electrocatalysts, hence the oxide reduction extent in the preparation method affects the Pd and Au performance towards the ORR which is related to the catalyst synthesis procedures [67][68][69][70][71].…”
Section: Study Of Oxygen Reduction With Rdementioning
confidence: 99%
“…Extensive research has focused on the improvement of catalytic activity at low temperatures for these three co-current catalytic processes [32][33][34]. Numerous catalytic systems have been proposed including those based on Pt [35], Pd [36][37], Rh, Ru, Au [38][39][40][41][42][43], Ag, and Cu, supported on refractory or reducible carriers or dispersed in perovskites [44]. Due to the cost of the noble metals, much attention has been given to base metals as catalysts.…”
Section: Introductionmentioning
confidence: 99%
“…Extensive research has focused on the improvement of catalytic activity at low temperatures for these three co-current catalytic processes [46][47][48]. Numerous catalytic systems have been proposed including those based on Pt [49], Pd [50,51], Rh, Ru, Au [52][53][54][55][56][57], Ag, and Cu, supported on refractory or reducible carriers or dispersed in perovskites [58]. Due to the cost of the noble metals, much attention has also been given to base metals and various transition metal oxides as catalysts.…”
Section: Introductionmentioning
confidence: 99%