The intense absorption of light to covering a large part of the visible spectrum is highly desirable for solar energy conversion schemes. To this end, we have developed novel anionic bis(4 H ‐imidazolato)Cu(I) complexes (cuprates), which feature intense, panchromatic light absorption properties throughout the visible spectrum and into the NIR region with extinction coefficients up to 28,000 M −1 cm −1 . Steady‐state absorption, (spectro)electrochemical and theoretical investigations reveal low energy (Vis to NIR) metal‐to‐ligand charge‐transfer absorption bands, which are a consequence of destabilized copper‐based donor states. These high‐lying copper‐based states are induced by the σ‐donation of the chelating anionic ligands, which also feature low energy acceptor states. The optical properties are reflected in very low, copper‐based oxidation potentials and three ligand‐based reduction events. These electronic features reveal a new route to panchromatically absorbing Cu(I) complexes.
Cu(I) and two chelating , anionic polymethine‐type ligands form a novel type of photoactive cuprate. The ligands induce the destabilisation of the Cu(I)‐based donor states and act themselves as acceptors. This leads to an unusually broad and intense absorption spectrum with metal‐to‐ligand charge‐transfer transitions from the visible to near‐infrared region. image
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