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Health & Science4h 57m ago

A research team at the University of Bayreuth developed a new light-driven oxygen transfer system that directly uses CO₂ for the oxidative cleavage of alkenes under ambient conditions, making oxidation reactions safer and more sustainable.

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Bayreuth

Who
Prof. Dr. Shoubhik Das, University of Bayreuth, Leibniz Institute for Catalysis, CNR Institute of Chemistry of Organometallic Compounds, CNR Institute for Chemical and Physical Processes, Stockholm University, Jagiellonian University, State Key Laboratory of Low Carbon Catalysis and Carbon Dioxide Utilisation, Politecnico di Milano
What
A research team at the University of Bayreuth developed a new light-driven oxygen transfer system that directly uses CO₂ for the oxidative cleavage of alkenes under ambient conditions, making oxidation reactions safer and more sustainable.
When
Tue, 16 Jun 2026 03:42:52 GMT · 4h 57m ago
Where
Bayreuth ·
Why
Conventional oxidation reactions, indispensable to the chemical industry for producing active pharmaceutical ingredients and plastic precursors, pose significant safety risks due to heat generation, potential thermal runaway, and explosion hazards.
The Frontline Impact

How this affects you

This new method transforms CO₂ from a greenhouse gas into a valuable reagent, potentially revolutionizing industrial oxidation processes by making them safer and more energy-efficient. The innovation could lead to more sustainable production of essential materials, reducing environmental impact and industrial accidents.

Story chain

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  1. Currently Reading4h 57m ago
    A research team at the University of Bayreuth developed a new light-driven oxygen transfer system that directly uses CO₂ for the oxidative cleavage of alkenes under ambient conditions, making oxidation reactions safer and more sustainable.
  2. Health & Science4h 57m ago
    A research team demonstrated a light-driven oxygen transfer system that directly uses CO₂ for the oxidative cleavage of alkenes under ambient conditions, making the reaction safer than conventional oxidations.
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