Binuclear complexes of lanthanide pivalates with triethanolamine demonstrate a step-wise ligand loss and switching of photoluminescence properties

New mixed-ligand binuclear complexes [Ln₂(TeaH₂)(TeaH₃)(Piv)₅]∙H₂O·CH₃CN (Eu∙CH₃CN·H₂O) and [Ln₂(TeaH₂)₂(Piv)₄] (Gd, Tb) were synthesized by direct reaction of lanthanide pivalates (Piv^–, 2,2-dimethylpropanoate) with triethanolamine (TeaH₃) and characterized by single crystal and powder XRD, FTIR, TGA and luminescence spectroscopy. Triethanolamine appears as chelating-bridging anionic (TeaH₂^–) and as chelating neutral (TeaH₃) ligand. Two types of mixed-metal solid solutions [(Eu_1-xTb_x)₂(TeaH₂)(TeaH₃)(Piv)₅]∙H₂O·CH₃CN (x = 0.02) and [(Eu_1-xTb_x)₂(TeaH₂)₂(Piv)₄] (x = 0.19–0.95) form depending on the Eu/Tb ratio. The TGA and VT-PXRD reveal a loss of ethyl pivalate fragment upon heating at 200 °C. Transformation of binuclear [(Eu_1-xTb_x)₂(TeaH₂)₂(Piv)₄] into intermediate [(Eu_1-xTb_x)₂(TeaH₂)(Piv)₃(TeaH₂^-C2H5)]_n at 200 °C leads to ‘switching off’ of Tb-centered photoluminescence, sharp increase of LIR and relative temperature sensitivity S_r as high as 722 %/°C for x = 0.68.