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FTIR study on the interaction of crotyl alcohol and crotonic acid with SiO2, TiO2 and ZrO2
Authors: Lochař Václav | Pytel Martin
Year: 2006
Type of publication: článek ve sborníku
Name of source: Sampling catalysis research in the Pannonian Region ? Proceedings of the 8th Pannonian International Catalysis Symposium
Publisher name: Hungarian Zeolite Association
Place: Szeged, Hungary
Page from-to: 179-183
Titles:
Language Name Abstract Keywords
cze FTIR studie interakcí krotylalkoholu a kyseliny krotonové s SiO2, TiO2 a ZrO2 Adsorpce krotylalkoholu a kyseliny krotonové na SiO2, TiO2 a ZrO2 byla studována pomocí infračervené spektroskopie. Krotylalkohol je adsorbován převážně v málo stabilní nedisociované formě díky vodíkové vazbě na povrchových OH skupinách. Stabilnější alkoxidy byly nalezeny na všech zminovaných oxidech při adsorpci alkoholu. Výsledkem interakce alkoholu s aktivními centry ZrO2 byla produkce krotonaldehydu a následně karboxylátů při vysokých teplotách. Při adsorpci kyseliny krotonové docházelo k tvorbě karboxylátů pouze na ZrO2. FTIR spectroskopie, adsorpční formy, krotylalkohol, kyselina krotonová
eng FTIR study on the interaction of crotyl alcohol and crotonic acid with SiO2, TiO2 and ZrO2 The adsorption of crotyl alcohol and crotonic acid on SiO2, TiO2 and ZrO2 has been studied by FTIR spectroscopy. Crotyl alcohol was adsorbed mainly in a less stable molecular form (hydrogen-bonded crotyl alcohol) on the surfaces. The more stable surface compound (alkoxide) was also found during crotyl alcohol adsorption at room temperature on SiO2, TiO2, resp. ZrO2. Crotonaldehyde and consequently carboxylate were products of reaction between crotyl alcohol and active sites of ZrO2 surface at higher temperatures. During crotonic acid adsorption were indicated undissociated acid molecules and the formation of hydrogen-bonded acid with surface hydroxyls for all the studied oxides. Crotonic acid was easily dissociated to form the surface carboxylate species on ZrO2. FTIR spectroscopy, adsorption forms, crotyl alcohol, crotonic acid

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