Sustainable synthesis of azobenzenes, quinolines and quinoxalines via oxidative dehydrogenative couplings catalysed by reusable transition metal oxide–Bi( iii ) cooperative catalysts

Kocsis, Marianna [Kocsis, Marianna (Anyagtudomány, Sz...), author] Doctoral School of Chemistry (SZTE / DI); Department of Organic Chemistry (SZTE / TTIK / KI); Baán, Kornélia [Baán, Kornélia (Kémia), author] Department of Applied and Environmental Chemistry (SZTE / TTIK / KI); ELKH-SZTE Reaction Kinetics and Surface Chemist... (SZTE / TTIK / KI); Ötvös, Sándor B. [Ötvös, Sándor Balázs (áramlásos kémia), author]; Kukovecz, Ákos [Kukovecz, Ákos (Porózus anyagok, ...), author] Department of Applied and Environmental Chemistry (SZTE / TTIK / KI); Kónya, Zoltán [Kónya, Zoltán (Nanotechnológia), author] Department of Applied and Environmental Chemistry (SZTE / TTIK / KI); ELKH-SZTE Reaction Kinetics and Surface Chemist... (SZTE / TTIK / KI); Sipos, Pál [Sipos, Pál Miklós (szervetlen és ana...), author] Department of Inorganic and Analytical Chemistry (SZTE / TTIK / KI); Pálinkó, István [Pálinkó, István (Fizikai szerves k...), author] Department of Organic Chemistry (SZTE / TTIK / KI); Varga, Gábor ✉ [Varga, Gábor (Kémia), author] Department of Physical Chemistry and Materials ... (SZTE / TTIK / KI)

English Article (Journal Article) Scientific
Published: CATALYSIS SCIENCE & TECHNOLOGY 2044-4753 2044-4761 13 (10) pp. 3069-3083 2023
  • SJR Scopus - Catalysis: Q2
Identifiers
Subjects:
  • Surface chemistry
  • Heterogeneous catalysis
  • Chemical sciences
Heterogeneous catalytic oxidative dehydrogenative processes for N-heterocycles are presented, which enable waste-minimized (additive-, oxidant-, base-free), efficient cyclisations/couplings via transition metal oxide–Bi( iii ) cooperative catalysis.
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2026-05-11 07:53