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"FTIR study of P-picoline and pyridine-3-carbaldehyde transformation on V-Ti-O catalysts. The effect of sulfate content on p-picoline oxidation into nicotinic acid" (vol 380, pg 118, 2013) Chesalov YA, Andrushkevich TV, Sobolev VI, Chernobay GB Journal of Molecular Catalysis A-Chemical, 425, 349, 2016 |
2 |
FTIR study of the surface complexes of beta-picoline, 3-pyridine-carbaldehyde and nicotinic acid on sulfated TiO2 (anatase) Chesalov YA, Chernobay GB, Andrushkevich TV Journal of Molecular Catalysis A-Chemical, 373, 96, 2013 |
3 |
FTIR study of beta-picoline and pyridine-3-carbaldehyde transformation on V-Ti-O catalysts. The effect of sulfate content on beta-picoline oxidation into nicotinic acid Chesalov YA, Andrushkevich TV, Sobolev VI, Chernobay GB Journal of Molecular Catalysis A-Chemical, 380, 118, 2013 |
4 |
In situ FTIR study of beta-picoline transformations on V-Ti-O catalysts Chernobay GB, Chesalov YA, Baltakhinov VP, Popova GY, Andrushkevich TV Catalysis Today, 164(1), 58, 2011 |
5 |
Mechanism of the oxygen involvement in nicotinic acid formation under beta-picoline oxidation on V-Ti-O catalyst Chesalov YA, Ovchinnikova EV, Chernobay GB, Popova GY, Andrushkevich TV Catalysis Today, 157(1-4), 39, 2010 |
6 |
In situ FTIR study of transformation of 3-cyanopyridine on V-Ti-O catalyst Chesalov YA, Popova GY, Chernobay GB, Andrushkevich TV Reaction Kinetics and Catalysis Letters, 98(1), 43, 2009 |