Solvothermal syntheses, and characterization of [Ln(en)4(SbSe4)] (Ln=Ce, Pr) and [Ln(en)4]SbSe4·0.5en (Ln=Eu, Gd, Er, Tm, Yb): The effect of lanthanide contraction on the crystal structures of lanthanide selenidoantimonates(V)

“…The Table S6). The NÁÁÁSe separations and N-HÁÁÁSe angles are in agreement with reported values observed in Ln tetraselenidoantimonate containing amino coligands [41][42][43][44]48]. The layers are further connected through interlayer N-HÁÁÁSe interactions to form a 3-D H-bonding network (Fig.…”

“…ions and chalcogenidoantimonate anions via TM-S or TM-Se bond, the weak interactions between lanthanide (Ln) ions and chalcogenidoantimonate anions make the synthesis of ternary Ln-chalcogenidoantimonates a challenging task. However, our work has demonstrated that the chalcogenidoantimonate anions [SbS 4 ] 3-and [SbSe 4 ] 3-can coordinate to Ln(III) centers using coordinative amines as co-ligands, and a number of Ln-chalcogenidoantimonates have been solvothermally prepared in en, dien, and trien solvents [39][40][41][42][43][44]. Unlike the TM n?…”

“…centers via Ln-S or Ln-Se bond formation. Furthermore, the [SbS 4 ] 3-or [SbSe 4 ] 3-anions can be tuned to coordinate to Ln(III) centers in mono-SbQ 4 , 1j 2 -SbQ 4 and l-1j,2j 2 -SbQ 4 (Q=S, Se) coordination modes using ethylene polyamines en, dien and trien as the co-ligands [39][40][41][42][43][44]. It is important to systematically investigated the synergistic coordination effects of SbQ 4 and polyamino ligands on the Ln(III) centers in the preparation of new Ln-containing chalcogenidometalates.…”

“…ions always possess coordination number of nine, while the ions beyond Nd 3? possess coordination number of eight[41][42][43][44]. Now, the solvothermal syntheses in tepa solvent gave two types of Ln(III)-SbSe 4 compounds 1a, 1b, and 2a-2c, in which l-1j:2j-SbSe 4 and mono-SbSe 4 ligands were obtained.…”

“…Ln-N 76.9 (3)-151.2(3) 77.0 (3)-150.9 (3) 76.9 (3)-150.7 (3) N-Ln-N 66.2 (4)-140.8(4) 66.8 (3)-141.2 (4) 67.0 (4)-141.0 (4) Se-Ln-N 82.1 (2)-147.9 (2) 81.8 (3)-143.5 (2) 81.5 (3)-148.ethylene polyamino coligands like en, dien, trien or their mixtures[41][42][43][44]. Being multidentate chelating ligands with N-donor atoms, ethylene polyamines are prone to chelating the Ln(III) ions, but usually leave one or more coordination sites free due to steric hindrance of the polyamines.The numbers of left coordination sites are related to the structure of ethylene polyamine and the size of Ln(III) ion.…”

Solvothermal syntheses, crystal structures, and properties of new lanthanide compounds based on tetraselenidoantimonate and tetraethylenepentamine mixed ligands

“…The Table S6). The NÁÁÁSe separations and N-HÁÁÁSe angles are in agreement with reported values observed in Ln tetraselenidoantimonate containing amino coligands [41][42][43][44]48]. The layers are further connected through interlayer N-HÁÁÁSe interactions to form a 3-D H-bonding network (Fig.…”

“…ions and chalcogenidoantimonate anions via TM-S or TM-Se bond, the weak interactions between lanthanide (Ln) ions and chalcogenidoantimonate anions make the synthesis of ternary Ln-chalcogenidoantimonates a challenging task. However, our work has demonstrated that the chalcogenidoantimonate anions [SbS 4 ] 3-and [SbSe 4 ] 3-can coordinate to Ln(III) centers using coordinative amines as co-ligands, and a number of Ln-chalcogenidoantimonates have been solvothermally prepared in en, dien, and trien solvents [39][40][41][42][43][44]. Unlike the TM n?…”

“…centers via Ln-S or Ln-Se bond formation. Furthermore, the [SbS 4 ] 3-or [SbSe 4 ] 3-anions can be tuned to coordinate to Ln(III) centers in mono-SbQ 4 , 1j 2 -SbQ 4 and l-1j,2j 2 -SbQ 4 (Q=S, Se) coordination modes using ethylene polyamines en, dien and trien as the co-ligands [39][40][41][42][43][44]. It is important to systematically investigated the synergistic coordination effects of SbQ 4 and polyamino ligands on the Ln(III) centers in the preparation of new Ln-containing chalcogenidometalates.…”

“…ions always possess coordination number of nine, while the ions beyond Nd 3? possess coordination number of eight[41][42][43][44]. Now, the solvothermal syntheses in tepa solvent gave two types of Ln(III)-SbSe 4 compounds 1a, 1b, and 2a-2c, in which l-1j:2j-SbSe 4 and mono-SbSe 4 ligands were obtained.…”

“…Ln-N 76.9 (3)-151.2(3) 77.0 (3)-150.9 (3) 76.9 (3)-150.7 (3) N-Ln-N 66.2 (4)-140.8(4) 66.8 (3)-141.2 (4) 67.0 (4)-141.0 (4) Se-Ln-N 82.1 (2)-147.9 (2) 81.8 (3)-143.5 (2) 81.5 (3)-148.ethylene polyamino coligands like en, dien, trien or their mixtures[41][42][43][44]. Being multidentate chelating ligands with N-donor atoms, ethylene polyamines are prone to chelating the Ln(III) ions, but usually leave one or more coordination sites free due to steric hindrance of the polyamines.The numbers of left coordination sites are related to the structure of ethylene polyamine and the size of Ln(III) ion.…”

Solvothermal syntheses, crystal structures, and properties of new lanthanide compounds based on tetraselenidoantimonate and tetraethylenepentamine mixed ligands

ChemInform Abstract: Solvothermal Syntheses, and Characterization of [Ln(en)₄(SbSe₄)] (Ln: Ce, Pr) and [Ln(en)₄]SbSe₄×0.5en (Ln: Eu, Gd, Er, Tm, Tb): The Effect of Lanthanide Contraction of the Crystal Structures of Lanthanide Selenidoantimonates(V).

The First Tetradentate μ‐1κ²:2κ²‐Sn₂Se₆ Ligand to a Lanthanide(III) Center: Solvothermal Syntheses and Characterizations of Lanthanide Selenidostannate Polymers with Tetraethylenepentamine as a Second Ligand