Today the virtual group meeting #6 @labnanomat was literature discussion of the very nice @NatureCatalysis paper from @BWeckhuysen about #CO2conversion #RWGS #driftCO #catalysis @usponline @ppg_quimiqusp @rcgipage https://t.co/x9dLz28WDF
RT @NatureCatalysis: Metal Nanoparticles Hold the Secret to Quick CO2 Conversion https://t.co/kBgWcOFVtD Source paper: https://t.co/GAE6UgPMmk
RT @ShepChemical: Scientists @UtrechtUni are hoping to combat the world’s CO2 problem with catalysis. Their research findings on structure…
RT @ShepChemical: Scientists @UtrechtUni are hoping to combat the world’s CO2 problem with catalysis. Their research findings on structure…
Scientists @UtrechtUni are hoping to combat the world’s CO2 problem with catalysis. Their research findings on structure sensitivity in supported metal #nanoparticle #catalysts are published in @NatureCatalysis: https://t.co/RR0YPSJy1B https://t.co/0HROCWL
RT @NatureCatalysis: Metal Nanoparticles Hold the Secret to Quick CO2 Conversion https://t.co/AQKvjQ5Mr1 Source paper: https://t.co/c17X6u…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: Metal Nanoparticles Hold the Secret to Quick CO2 Conversion https://t.co/AQKvjQ5Mr1 Source paper: https://t.co/c17X6u…
Metal Nanoparticles Hold the Secret to Quick CO2 Conversion https://t.co/AQKvjQ5Mr1 Source paper: https://t.co/c17X6unv4g
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
RT @NatureCatalysis: By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methana…
By monitoring CO2 hydrogenation over nanoparticles of various sizes (1-7 nm), the structure sensitivity of CO2 methanation with nickel is unraveled. https://t.co/c17X6unv4g (free to read for a limited time) https://t.co/NvTpLq56XP
RT @VanhanenJoonas: Very small metal nanoparticles (1-7 nm in diameter) can be used for CO2 hydrogenation: https://t.co/v8yoCCwXoC #nanopar…
Very small metal nanoparticles (1-7 nm in diameter) can be used for CO2 hydrogenation: https://t.co/v8yoCCwXoC #nanoparticles #CO2