Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction
Uticaj postupka sinteze na aktivnost platinskih katalizatora za reakciju elektrooksidacije etanola
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Carbon supported platinum catalysts for ethanol electrooxidation were synthesized by modified polyol synthesis method, assisted by microwave or reflux heating. Synthesized catalysts were characterized by XRD, STM and TGA techniques to determine their structural and morphological properties. STM and XRD investigations revealed small particle size (~3nm), while TGA showed Pt loading of 20% in both samples. Electrocatalytic activity of prepared catalysts was examined by potentiodynamic measurements and compared to commercial Pt catalyst (Pt/C-Tanaka). The highest activity for ethanol electrooxidation was observed with Pt catalyst prepared by microwave irradiation. The increase in activity can be assigned to the benefits of microwave assisted synthesis, such as small particle size and homogeneous particle distribution on the support.
Platinski katalizatori na ugljeničnoj podlozi su sintetizovani korišćenjem modifikovanog poliol postupka uz primenu mikrotalasnog ili refluks zagrevanja za reakciju elektrooksidacije etanola. Dobijeni katalizatori su karakterisani strukturno i morfološki korišćenjem XRD, STM i TGA tehnika. STM i XRD ispitivanja su pokazala malu veličinu čestica (~3nm), dok je TGA pokazala da je sadržaj metala u katalizatoru 20%. Elektrokatalitička aktivnost sintetizovanih katalizatora je ispitivana potenciodinamičkim merenjima i upoređena sa komercijalnim platinskim katalizatorom (Pt/C-Tanaka). Najbolju aktivnost za elektrooksidaciju etanola pokazao je platinski katalizator sintetizovan uz korišćenje mikrotalasnog zagrevanja. Veća aktivnost se može pripisati prednostima mikrotalasnog zagrevanja u toku sinteze jer je dobijen katalizator sa malom veličinom i homogenom di stribucijom čestica.
Кључне речи:
Pt catalysts / polyol synthesis / ethanol electrooxidation / microwave irradiation / reflux / platinski katalizatori / poliol postupak / elektrooksidacija etanola / mikrotalasno zagrevanje / refluksИзвор:
Zaštita materijala, 2016, 57, 2, 339-345Издавач:
- Engineering Society for Corrosion, Belgrade, Serbia
Финансирање / пројекти:
- Нов приступ дизајнирању материјала за конверзију и складиштење енергије (RS-MESTD-Basic Research (BR or ON)-172060)
Институција/група
Tehnološko-metalurški fakultetTY - JOUR AU - Stevanović, Sanja AU - Jovanović, Vladislava M. AU - Rogan, Jelena AU - Kowal, Andrzej PY - 2016 UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/3220 AB - Carbon supported platinum catalysts for ethanol electrooxidation were synthesized by modified polyol synthesis method, assisted by microwave or reflux heating. Synthesized catalysts were characterized by XRD, STM and TGA techniques to determine their structural and morphological properties. STM and XRD investigations revealed small particle size (~3nm), while TGA showed Pt loading of 20% in both samples. Electrocatalytic activity of prepared catalysts was examined by potentiodynamic measurements and compared to commercial Pt catalyst (Pt/C-Tanaka). The highest activity for ethanol electrooxidation was observed with Pt catalyst prepared by microwave irradiation. The increase in activity can be assigned to the benefits of microwave assisted synthesis, such as small particle size and homogeneous particle distribution on the support. AB - Platinski katalizatori na ugljeničnoj podlozi su sintetizovani korišćenjem modifikovanog poliol postupka uz primenu mikrotalasnog ili refluks zagrevanja za reakciju elektrooksidacije etanola. Dobijeni katalizatori su karakterisani strukturno i morfološki korišćenjem XRD, STM i TGA tehnika. STM i XRD ispitivanja su pokazala malu veličinu čestica (~3nm), dok je TGA pokazala da je sadržaj metala u katalizatoru 20%. Elektrokatalitička aktivnost sintetizovanih katalizatora je ispitivana potenciodinamičkim merenjima i upoređena sa komercijalnim platinskim katalizatorom (Pt/C-Tanaka). Najbolju aktivnost za elektrooksidaciju etanola pokazao je platinski katalizator sintetizovan uz korišćenje mikrotalasnog zagrevanja. Veća aktivnost se može pripisati prednostima mikrotalasnog zagrevanja u toku sinteze jer je dobijen katalizator sa malom veličinom i homogenom di stribucijom čestica. PB - Engineering Society for Corrosion, Belgrade, Serbia T2 - Zaštita materijala T1 - Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction T1 - Uticaj postupka sinteze na aktivnost platinskih katalizatora za reakciju elektrooksidacije etanola EP - 345 IS - 2 SP - 339 VL - 57 DO - 10.5937/ZasMat1602339S ER -
@article{ author = "Stevanović, Sanja and Jovanović, Vladislava M. and Rogan, Jelena and Kowal, Andrzej", year = "2016", abstract = "Carbon supported platinum catalysts for ethanol electrooxidation were synthesized by modified polyol synthesis method, assisted by microwave or reflux heating. Synthesized catalysts were characterized by XRD, STM and TGA techniques to determine their structural and morphological properties. STM and XRD investigations revealed small particle size (~3nm), while TGA showed Pt loading of 20% in both samples. Electrocatalytic activity of prepared catalysts was examined by potentiodynamic measurements and compared to commercial Pt catalyst (Pt/C-Tanaka). The highest activity for ethanol electrooxidation was observed with Pt catalyst prepared by microwave irradiation. The increase in activity can be assigned to the benefits of microwave assisted synthesis, such as small particle size and homogeneous particle distribution on the support., Platinski katalizatori na ugljeničnoj podlozi su sintetizovani korišćenjem modifikovanog poliol postupka uz primenu mikrotalasnog ili refluks zagrevanja za reakciju elektrooksidacije etanola. Dobijeni katalizatori su karakterisani strukturno i morfološki korišćenjem XRD, STM i TGA tehnika. STM i XRD ispitivanja su pokazala malu veličinu čestica (~3nm), dok je TGA pokazala da je sadržaj metala u katalizatoru 20%. Elektrokatalitička aktivnost sintetizovanih katalizatora je ispitivana potenciodinamičkim merenjima i upoređena sa komercijalnim platinskim katalizatorom (Pt/C-Tanaka). Najbolju aktivnost za elektrooksidaciju etanola pokazao je platinski katalizator sintetizovan uz korišćenje mikrotalasnog zagrevanja. Veća aktivnost se može pripisati prednostima mikrotalasnog zagrevanja u toku sinteze jer je dobijen katalizator sa malom veličinom i homogenom di stribucijom čestica.", publisher = "Engineering Society for Corrosion, Belgrade, Serbia", journal = "Zaštita materijala", title = "Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction, Uticaj postupka sinteze na aktivnost platinskih katalizatora za reakciju elektrooksidacije etanola", pages = "345-339", number = "2", volume = "57", doi = "10.5937/ZasMat1602339S" }
Stevanović, S., Jovanović, V. M., Rogan, J.,& Kowal, A.. (2016). Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction. in Zaštita materijala Engineering Society for Corrosion, Belgrade, Serbia., 57(2), 339-345. https://doi.org/10.5937/ZasMat1602339S
Stevanović S, Jovanović VM, Rogan J, Kowal A. Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction. in Zaštita materijala. 2016;57(2):339-345. doi:10.5937/ZasMat1602339S .
Stevanović, Sanja, Jovanović, Vladislava M., Rogan, Jelena, Kowal, Andrzej, "Influence of the synthesis procedures on pt catalyst activity for ethanol electrooxidation reaction" in Zaštita materijala, 57, no. 2 (2016):339-345, https://doi.org/10.5937/ZasMat1602339S . .