Current efforts in materials science focus on developing efficient solid-state proton conductors for energy production and on achieving light-induced control of material properties at the molecular level.The convergen...Current efforts in materials science focus on developing efficient solid-state proton conductors for energy production and on achieving light-induced control of material properties at the molecular level.The convergence of these two aspects opens the way to entirely new functionalities.In this context,we present the synthesis,crystal structures,proton conductivity,and photomagnetic effect in two new CNbridged(H_(3)O)_(4){[Cu^(Ⅱ)(cyclam(COOH)_(2))]_(3)[M^(Ⅳ)(CN)_(8)]_(2)}Cl_(2)·10H_(2)O coordination complexes(M=Mo^(Ⅳ)(1),W^(Ⅳ)(2))incorporating dicarboxy-functionalized cyclam(cyclam(COOH)_(2)=6,13-dicarboxy-1,4,8,14-tetraazacyclotetradecane).1 and 2 crystallize in the P1¯space group,are isostructural,and consist of linear pentanuclear{Cu_(3)^(Ⅱ)M_(2)^(Ⅳ)}^(2-)molecules with Cu^(Ⅱ)complexes linked by[M^(Ⅳ)(CN)_(8)]^(4-)anions.Due to the presence of protic COOH groups,H_(3)O+cations,and an extensive network of hydrogen bonds,the compounds 1 and 2 exhibit proton conductivity of 3.88(7)×10^(-5)S cm^(-1)and 1.02(1)×10^(-5)S cm^(-1)(298 K,95%RH),respectively.Activation energies of 0.49 eV(1)and 0.46 eV(2)suggest that proton relay occurs predominantly along the network of moderate-strength H-bonds according to the Grotthuss mechanism.Both compounds exhibit a photomagnetic response to irradiation with 450 nm light at 10 K,which is attributed to photoinduced transition from singlet(S=0)to triplet(S=1)spin-state of M^(Ⅳ)centers.The magnetic characteristics of irradiated materials indicate almost complete photoconversion,which activates magnetic superexchange between Cu^(Ⅱ)(S=1/2)and the photoexcited M^(Ⅳ)exhibiting significant zero-field splitting.The coexistence of electrical and switchable magnetic properties in compounds 1 and 2 positions Cu^(Ⅱ)-M^(Ⅳ)assemblies as promising platforms for photoswitchable spin-ionics.展开更多
基金financed by the National Science Centre of Poland with grant no.2020/39/D/ST5/02387The study was conducted using research infrastructure funded by the European Union in the framework of the Smart Growth Operational Programme,Measure 4.2Grant No.POIR.04.02.00-00-D001/20,“ATOMIN 2.0-Center for materials research on ATOMic scale for the INnovative economy”.
文摘Current efforts in materials science focus on developing efficient solid-state proton conductors for energy production and on achieving light-induced control of material properties at the molecular level.The convergence of these two aspects opens the way to entirely new functionalities.In this context,we present the synthesis,crystal structures,proton conductivity,and photomagnetic effect in two new CNbridged(H_(3)O)_(4){[Cu^(Ⅱ)(cyclam(COOH)_(2))]_(3)[M^(Ⅳ)(CN)_(8)]_(2)}Cl_(2)·10H_(2)O coordination complexes(M=Mo^(Ⅳ)(1),W^(Ⅳ)(2))incorporating dicarboxy-functionalized cyclam(cyclam(COOH)_(2)=6,13-dicarboxy-1,4,8,14-tetraazacyclotetradecane).1 and 2 crystallize in the P1¯space group,are isostructural,and consist of linear pentanuclear{Cu_(3)^(Ⅱ)M_(2)^(Ⅳ)}^(2-)molecules with Cu^(Ⅱ)complexes linked by[M^(Ⅳ)(CN)_(8)]^(4-)anions.Due to the presence of protic COOH groups,H_(3)O+cations,and an extensive network of hydrogen bonds,the compounds 1 and 2 exhibit proton conductivity of 3.88(7)×10^(-5)S cm^(-1)and 1.02(1)×10^(-5)S cm^(-1)(298 K,95%RH),respectively.Activation energies of 0.49 eV(1)and 0.46 eV(2)suggest that proton relay occurs predominantly along the network of moderate-strength H-bonds according to the Grotthuss mechanism.Both compounds exhibit a photomagnetic response to irradiation with 450 nm light at 10 K,which is attributed to photoinduced transition from singlet(S=0)to triplet(S=1)spin-state of M^(Ⅳ)centers.The magnetic characteristics of irradiated materials indicate almost complete photoconversion,which activates magnetic superexchange between Cu^(Ⅱ)(S=1/2)and the photoexcited M^(Ⅳ)exhibiting significant zero-field splitting.The coexistence of electrical and switchable magnetic properties in compounds 1 and 2 positions Cu^(Ⅱ)-M^(Ⅳ)assemblies as promising platforms for photoswitchable spin-ionics.
