Cristin-resultat-ID: 1272455
Sist endret: 24. september 2015, 20:33
Resultat
Vitenskapelig foredrag
2010

Utilization of CO2 via Catalysis in Ionic Liquids

Bidragsytere:
  • Richard H. Heyn
  • Arild Geir Andersen
  • Terje Didriksen
  • Silje Fosse Håkonsen
  • Ruth Elisabeth Stensrød
  • Knut Thorshaug
  • mfl.

Presentasjon

Navn på arrangementet: Green Solvents for Synthesis
Sted: Berchtesgaden, Germany
Dato fra: 10. oktober 2010
Dato til: 13. oktober 2010

Om resultatet

Vitenskapelig foredrag
Publiseringsår: 2010

Importkilder

SINTEF AS-ID: S16827

Beskrivelse Beskrivelse

Tittel

Utilization of CO2 via Catalysis in Ionic Liquids

Sammendrag

Carbon dioxide, CO2, is a molecule of intense current interest, as it is the primary chemical motor leading to the calamity of climate change. CO2 is also a viable, sustainable, yet challenging C1 feedstock, and the preferred reagent over other C1 sources such as phosgene, COCl2, and CO. Fundamental catalytic studies for the development of CO2 chemistry are needed for advancing chemical sustainability, which is particularly relevant where CO2 can be used as a replacement for extremely toxic phosgene, which produces two equivalents of Cl-containing waste when used as a carbonylating agent. An industrially applicable target reaction is the production of an aromatic carbamate from CO2, aniline, and an alcohol; related carbamates are potentially isocyanate precursors for the polyurethane industry. The only known CO2-based catalysis relevant to this goal is the production of diphenylurea (DPU) from aniline and CO2, which takes place with moderate yields in ionic liquids (ILs) and CsCO3 as catalyst. In order to investigate the potential of ILs in CO2-utilization reactions, and to study a large variety of ILs systematically, we have initiated a program to screen with high-throughput technology a large parameter space of ILs and catalysts for the production of aromatic carbamates.Our studies have revealed a number of new catalyst/IL systems for the synthesis of diphenylurea or dibenzylurea from CO2 and aniline or benzylamine, respectively. The nature and amount of various ILs affect not only the primary product distribution, but also the extent and type of byproducts. One system in particular shows higher turnovers for DPU than reported.This presentation will provide results based on data generated from a large array of catalyst/IL combinations, which will further elucidate the role of ILs in these reactions and which IL structural properties are most important.

Bidragsytere

Richard H. Heyn

  • Tilknyttet:
    Forfatter
    ved Prosessteknologi ved SINTEF AS

Arild Geir Andersen

  • Tilknyttet:
    Forfatter
    ved Prosessteknologi ved SINTEF AS

Terje Didriksen

  • Tilknyttet:
    Forfatter
    ved Prosessteknologi ved SINTEF AS

Silje Fosse Håkonsen

  • Tilknyttet:
    Forfatter
    ved Prosessteknologi ved SINTEF AS

Ruth Elisabeth Stensrød

  • Tilknyttet:
    Forfatter
    ved Prosessteknologi ved SINTEF AS
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