New molecular design absorbs 2 photons to store 2 positive and 2 negative charges 100 ns lifetime, 3 eV energy storage, and 37% quantum yield A step toward multi-electron photochemistry Mathis Brändlin and @BjornPfund in @NatureChemistry https://t.co/CwtRDeoRY3

Rethinking Iron Photoredox Catalysis For Fe(III) complexes, excited-state redox potentials don’t follow the usual rules - standard estimation methods fall short @JoelWellauer with Paul Francis & colleagues at @Deakin in @J_A_C_S https://t.co/fF0q3RkFJO

Iron(III) complexes with luminescence lifetimes of up to 100 nanoseconds to enhance upconversion and photocatalysis Published in @J_A_C_S, Joel Wellauer and @BjornPfund in collaboration with @AKMeyer_Goe https://t.co/repdAon6wf

Iron(III) carbene complexes for photoredox and upconversion @JoelWellauer, @NarayanSinha01 & colleagues with @AKMeyer_Goe in @J_A_C_S Many thanks to all co-authors for their hard and dedicated work! https://t.co/pZjeramqvG

Reversible photoinduced ligand dissociation in a Cr(0) complex @NarayanSinha01 & @JoelWellauer with @UniJena in @J_A_C_S https://t.co/shaKdpEJvb Reversibility is the key here: up to 4000 de-coordination / re-coordination events millisecond timescale