Redox reactivity of LMCT and MLCT excited states of Earth‐abundant metal complexes
W Nam, YM Lee, S Fukuzumi - Bulletin of the Korean Chemical …, 2024 - Wiley Online Library
Precious metal complexes, which act as excellent photoredox catalysts, have now being
replaced by earth‐abundant metal complexes. This review focused on redox reactivity of …
replaced by earth‐abundant metal complexes. This review focused on redox reactivity of …
Iron (III) Carbene Complexes with Tunable Excited State Energies for Photoredox and Upconversion
J Wellauer, F Ziereisen, N Sinha… - Journal of the …, 2024 - ACS Publications
Substituting precious elements in luminophores and photocatalysts by abundant first-row
transition metals remains a significant challenge, and iron continues to be particularly …
transition metals remains a significant challenge, and iron continues to be particularly …
Synthesis and preliminary characterization of two copper (I) chromophore–acceptor dyads as potential photoredox catalysts
J Ricardo-Noordberg, Z Singh… - Canadian Journal of …, 2023 - cdnsciencepub.com
The development of sustainable alternatives to fossil fuel-derived chemical feedstocks is
imperative as we move towards decarbonization. Here, we report two Cu (I) chromophore …
imperative as we move towards decarbonization. Here, we report two Cu (I) chromophore …
Investigation of Iron-N-Heterocyclic Carbene Complexes for Photocatalytic Applications
A Ilic - 2024 - portal.research.lu.se
Humanity's ever-growing energy demands require the implementation of more sustainable
ways to harvest and store energy. At the same time, the reduction of greenhouse gas …
ways to harvest and store energy. At the same time, the reduction of greenhouse gas …
Fe (III) complexes with prolonged luminescence lifetimes and symmetry-breaking charge separation
S Campagna, S Genovese, A Cancelliere, A Arrigo… - 2024 - researchsquare.com
Iron (III) complexes with long-lived luminescence in fluid solution at room temperature (up to
6.5 ns, significantly longer than benchmark compounds) have been prepared, by taking …
6.5 ns, significantly longer than benchmark compounds) have been prepared, by taking …