SYNTHESIS AND CATALYTIC PROPERTIES OF COMPOSITES WITH Pd-(2-HYDROXYETHYL CELLULOSE) ON BENTONITE

Авторы

  • A.K. Zharmagambetova
  • M.M. Usmanova
  • A.S. Auyezkhanova
  • Akhmetova S.N.
  • E.T. Talgatov
  • Tumabayev N.Z.
  • B.K. Dyussenalin

Ключевые слова:

2-Hydroxyethylcellulose, polysaccharides, bentonite, catalytic activity, hydrogenation, palladium catalysts.

Аннотация

Palladium composites based on 2-hydroxyethylcellulose (HEC) and bentonite (BT) have been
synthesized to use them as “green” catalysts for the process of phenylacetylene hydrogenation under mild conditions.
The introduced amount of HEC in the composites was 5, 10, and 20%. Viscometer method shows the degree of
polymer fixation on the surface of the mineral sorbent. The HEC/BT systems with polymer content of 4.1; 9.0;
18.9% have been obtained. Samples of the obtained HEC-containing composites were characterized by X-ray,
scanning and transmission electron microscopy. The data obtained have confirmed the fixing of the polymer on the
surface of support.
The sorption capacity of the developed HEC-bentonite composites to Pd2+ ions has been studied. The content
of palladium in the prepared composites desreased with the increasing of HEC amount in the [Pd(HEC)BT] systems
and were : 0.9% Pd-BT/HEC (4%), 0.8% Pd-BT / HEC (9%), 0.6% Pd-BT / HEC (19%). To compare the activity
and selectivity of composites with different content of HEC in phenylacetylene hydrogenation, the catalysts with the
equal palladium content (0.6%) have were prepared. The developed catalysts showed high activity in the
hydrogenation at 40°C and atmospheric pressure of hydrogen. The most effective was 0.6% Pd-BT/HEC composite
with a HEC content of 9%, the selectivity to styrene was 92.0% with 96.4% conversion of the phenylacetylene.

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Опубликован

2019-10-05

Как цитировать

A.K. Zharmagambetova, M.M. Usmanova, A.S. Auyezkhanova, Akhmetova S.N., E.T. Talgatov, Tumabayev N.Z., & B.K. Dyussenalin. (2019). SYNTHESIS AND CATALYTIC PROPERTIES OF COMPOSITES WITH Pd-(2-HYDROXYETHYL CELLULOSE) ON BENTONITE. Известия НАН РК. Серия химии и технологии, (5), 22–29. извлечено от http://89.250.84.46/chemistry-technology/article/view/1364