One-pot synthesis of formic acid via hydrolysis-oxidation of potato starch in the presence of cesium salts of heteropoly acid catalysts

Nikolay V Gromov; Tatiana B Medvedeva; Yulia A Rodikova; Dmitrii E Babushkin; Valentina N Panchenko; Maria N Timofeeva; Elena G Zhizhina; Oxana P Taran; Valentin N Parmon

doi:10.1039/d0ra05501h

One-pot synthesis of formic acid via hydrolysis-oxidation of potato starch in the presence of cesium salts of heteropoly acid catalysts

RSC Adv. 2020 Aug 4;10(48):28856-28864. doi: 10.1039/d0ra05501h. eCollection 2020 Aug 3.

Authors

Nikolay V Gromov¹, Tatiana B Medvedeva¹, Yulia A Rodikova¹, Dmitrii E Babushkin¹, Valentina N Panchenko¹, Maria N Timofeeva¹, Elena G Zhizhina¹, Oxana P Taran¹, Valentin N Parmon¹

Affiliation

¹ Boreskov Institute of Catalysis SB RAS Lavrentiev Av., 5 Novosibirsk 630090 Russia gromov@catalysis.ru +7-383-33-08-056 +7-383-32-69-591.

Abstract

Solid bifunctional catalysts based on cesium salts of V-containing heteropoly acids (CsHPA: Cs_3.5H_0.5PW₁₁VO₄₀, Cs_4.5H_0.5SiW₁₁VO₄₀, Cs_3.5H_0.5PMo₁₁VO₄₀) and Cs_2.5H_0.5PMo₁₂O₄₀ were used for studying one-pot hydrolysis-oxidation of potato starch to formic acid at 413-443 K and 2 MPa air mixture. It was shown that the optimum process temperature that prevents formic acid from destruction is 423 K. The studies were focused on the influence of the composition of heteropoly anions on the yield and selectivity of formic acid. Using W-V-P(Si) CsHPA results in the product overoxidation compared to Mo-V-containing CsHPA. The activity of Cs-PMo was significantly lower compared to Cs-PMoV. This may indicate that vanadium plays an important role in the oxidation process. The most promising catalyst was Cs_3.5H_0.5PMo₁₁VO₄₀ which provided the maximum yield of formic acid equal to 51%. Cs_3.5H_0.5PMo₁₁VO₄₀ was tested during nine cycles of starch hydrolysis-oxidation to demonstrate its high stability and efficiency.