Carbon dioxide hydrogenation to formic acid in the presence of rhodium-oligoarylphosphonite catalyst systems: Fid-Bau Portal

Carbon dioxide hydrogenation to formic acid in the presence of rhodium-oligoarylphosphonite catalyst systems

Kolesnichenko, N. V. / Kremleva, E. V. / Teleshov, A. T. / Ezhova, N. N. / Ganin, D. A. / Te, Van / Slivinskii, E. V.

Abstract The catalytic properties of rhodium complexes modified with oligoarylphosphonites were studied in the reaction of carbon dioxide hydrogenation to formic acid at room temperature. It was shown that oligoarylphosphonites, which are intermediate compounds between normal arylphosphines and aryl phosphites and can possess the properties of both phosphite and phosphine ligands simultaneously, are effective modifiers of rhodium complexes. The highest yield of formic acid was obtained at a molar ratio of P/Rh = 13 when the oligomer used was the condensation product of hydroquinone phosphorylation.

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Carbon dioxide hydrogenation to formic acid in the presence of rhodium-oligoarylphosphonite catalyst systems

Kolesnichenko, N. V. / Kremleva, E. V. / Teleshov, A. T. / Ezhova, N. N. / Ganin, D. A. / Te, Van / Slivinskii, E. V.

Abstract

Carbon dioxide hydrogenation to formic acid in the presence of rhodium-oligoarylphosphonite catalyst systems

Kolesnichenko, N. V. / Kremleva, E. V. / Teleshov, A. T. / Ezhova, N. N. / Ganin, D. A. / Te, Van / Slivinskii, E. V.

Abstract

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Title:

Carbon dioxide hydrogenation to formic acid in the presence of rhodium-oligoarylphosphonite catalyst systems

Contributors:

Kolesnichenko, N. V. (author) / Kremleva, E. V. (author) / Teleshov, A. T. (author) / Ezhova, N. N. (author) / Ganin, D. A. (author) / Te, Van (author) / Slivinskii, E. V. (author)

Published in:

Petroleum Chemistry ; 46 ; 22-24

Publication date:

2006-01-01

Size:

3 pages

ISSN:

1555-6239 , 0965-5441

DOI:

https://doi.org/10.1134/S096554410601004X

Type of media:

Article (Journal)

Type of material:

Electronic Resource

Language:

English

Keywords:

Hydrogenation , Dioxide , Carbon Dioxide , Oligomer , Formic Acid Chemistry , Industrial Chemistry/Chemical Engineering

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