Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were...Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were fixed, and three monodentate ligands, 3-Mepy (3-methylpyridine), 4-NH2py (4-aminopyridine), and 2-Meim (2-methylimidazole) were used as the axial ligand X. The temperature dependence of magnetic susceptibility measurements demonstrated that [Fem(3-Mepy)L2]BPh4 showed a gradual spin equilibrium between HS (high-spin) (S = 5/2) and LS (low-spin) (S = 1/2) states, [Fem(4-NH2py)L2]BPh4 showed a steep SCO (spin crossover) and [FeIH(2-Melm)L2]BPh4 was in the HS state even at 100 K. The single crystal X-ray analyses demonstrated that [FelH(4-NH2py)L2]BPh4 has an one-dimensional chain structure constructed by intermolecular hydrogen bonding between 4-amino group of 4-NH2py and methoxy oxygen of adjacent molecular-cation. The crystal structure of [FenI(3-Mepy)L2]BPh4 has no such intermolecular interaction and its SCO site behaves independently, and the crystal structure of [FeIII(2-Meim)L2]BPh4 has a NH...n interaction between imidazole group of 2-Meim of cation and a phenyl group of anion BPh4. The result demonstrates that the intermolecular hydrogen bonding affects SCO profile significantly.展开更多
Traditional ligand-field theory has to be improved by taking into account both pure electronic contribution and electron-phonon interaction one (including lattice-vibrational relaxation energy). By means of improved...Traditional ligand-field theory has to be improved by taking into account both pure electronic contribution and electron-phonon interaction one (including lattice-vibrational relaxation energy). By means of improved ligand-field theory, the R-line, t^3 2^2 T1 lines, t^2 2(^3 T1)e^4 T2, and t^2 2(^3T1)e^4T1 bands, ground-state g factor, four strain-induced level- splittings, and R-line thermal shift of MgO:Cr^3+ have been calculated. The results are in very good agreement with the experimental data. It is found that for MgO:Cr^3+, the contributions due to electron-phonon interaction (EPI) come from the first-order term. In thermal shift of R-line of MgO:Cr^3+, the temperature-dependent contribution due to EPI is dominant.展开更多
Most protein-ligand interactions take place on surfaces and include but not limited to factors such as chemical composition, hydrophobicity, electronegavitiy and shape complementarity. Past studies showed that protein...Most protein-ligand interactions take place on surfaces and include but not limited to factors such as chemical composition, hydrophobicity, electronegavitiy and shape complementarity. Past studies showed that protein-protein interactions occur on comparatively fiat regions whereas protein-ligand bindings involve crevices. In the search for such sites various approaches have been designed and developed each of which is algorithmically unique. The use of grid units or voxels has been demonstrated in early studies with relatively good results obtained. We present here an approximated approach comprising of the use of voxels and computer vision methods in the search for ligand-binding areas. Each test protein is modelled and analysed in 2D with all corresponding residues graphically presented for successfully identified sites. The study was carried out on 2 sets of proteins: FK506-bound proteins and heme-bound proteins with promising results obtained for all test cases.展开更多
Six novel 3D layer-pillared lanthanide-transition metal coordination polymers,LnCuX(IN)2(Ac)(H2O)(Ln = Tb,X = Br(1);Ln = Er,X = Cl(2)),[LnCuCl(IN)2(Ac)].H2O(Ln = Gd(3);Ln = Eu(4)),and [LnCu2Br2(IN)2(Ac)(H2O)].nH2O(Ln ...Six novel 3D layer-pillared lanthanide-transition metal coordination polymers,LnCuX(IN)2(Ac)(H2O)(Ln = Tb,X = Br(1);Ln = Er,X = Cl(2)),[LnCuCl(IN)2(Ac)].H2O(Ln = Gd(3);Ln = Eu(4)),and [LnCu2Br2(IN)2(Ac)(H2O)].nH2O(Ln = Dy,n =0(5);Ln = Gd,n = 0.5(6))(IN = isonicotinate,Ac = acetate),have been obtained by linking Ln-organic layers and diverse Cu-complex pillars under hydrothermal conditions.1 and 2 are isostructural and formed by 2D Ln-IN-Ac layers and CuX(IN)2 pillars(X = Br(1),X= Cl(2));3 and 4 are isomorphic and comprised of 2D Ln-IN-Ac layers and dimeric Cu2Cl(IN)4 pillars;while 5 and 6 are isostructural and built from 2D Ln-IN-Ac layers and tetrameric Cu4Br4(IN)4 pillars.The magnetic susceptibility investigation of 3 and 6 shows the presence of weak antiferromagnetic exchange interactions between the Ln3+ ions.Compounds 1-6 represent good examples of using 2D Ln-organic layers and diverse Cu-complex pillars as building units to construct intriguing 3D Ln-TM-organic frameworks.展开更多
Eight novel lanthanide complexes: {Ln(TDA)I.5(H20)2 },, (Ln = Pr(la), Nd(2a)) and { Ln(TDA)(Ac)(H2O)}n (Ln = Pr(1), Nd(2) Eu(3), Gd(4), Tb(5), Dy(6); TDA = Thiophene-2,5-dicarboxylic acid...Eight novel lanthanide complexes: {Ln(TDA)I.5(H20)2 },, (Ln = Pr(la), Nd(2a)) and { Ln(TDA)(Ac)(H2O)}n (Ln = Pr(1), Nd(2) Eu(3), Gd(4), Tb(5), Dy(6); TDA = Thiophene-2,5-dicarboxylic acid anion) have been constructed by hydrothermal reaction. Structural analyses reveal that complexes Ia and 2a belong to the space group C2/c, exhibiting three-dimensional (3D) frame- works. Complexes 1-6 with P2t/c space group were prepared in the presence of excessive ammonium acetate, giving rise to interesting 3D frameworks different from those of la and 2a. Magnetic property studies of 4-6 reveal the weak antiferromag- netic interaction exists between adjacent Gd3+ in 4. The complex 6 displays rather rare slow magnetization relaxation behavior in 3D frameworks.展开更多
文摘Three iron (III) complexes with the formula of [Feat(X)L2]BPh4 were studied, in which a pentadentate Schiff-base ligand (H2L2 = bis (3-methoxysalicylideneiminopropyl) methylamine) and a counter anion BPh4 were fixed, and three monodentate ligands, 3-Mepy (3-methylpyridine), 4-NH2py (4-aminopyridine), and 2-Meim (2-methylimidazole) were used as the axial ligand X. The temperature dependence of magnetic susceptibility measurements demonstrated that [Fem(3-Mepy)L2]BPh4 showed a gradual spin equilibrium between HS (high-spin) (S = 5/2) and LS (low-spin) (S = 1/2) states, [Fem(4-NH2py)L2]BPh4 showed a steep SCO (spin crossover) and [FeIH(2-Melm)L2]BPh4 was in the HS state even at 100 K. The single crystal X-ray analyses demonstrated that [FelH(4-NH2py)L2]BPh4 has an one-dimensional chain structure constructed by intermolecular hydrogen bonding between 4-amino group of 4-NH2py and methoxy oxygen of adjacent molecular-cation. The crystal structure of [FenI(3-Mepy)L2]BPh4 has no such intermolecular interaction and its SCO site behaves independently, and the crystal structure of [FeIII(2-Meim)L2]BPh4 has a NH...n interaction between imidazole group of 2-Meim of cation and a phenyl group of anion BPh4. The result demonstrates that the intermolecular hydrogen bonding affects SCO profile significantly.
文摘Traditional ligand-field theory has to be improved by taking into account both pure electronic contribution and electron-phonon interaction one (including lattice-vibrational relaxation energy). By means of improved ligand-field theory, the R-line, t^3 2^2 T1 lines, t^2 2(^3 T1)e^4 T2, and t^2 2(^3T1)e^4T1 bands, ground-state g factor, four strain-induced level- splittings, and R-line thermal shift of MgO:Cr^3+ have been calculated. The results are in very good agreement with the experimental data. It is found that for MgO:Cr^3+, the contributions due to electron-phonon interaction (EPI) come from the first-order term. In thermal shift of R-line of MgO:Cr^3+, the temperature-dependent contribution due to EPI is dominant.
文摘Most protein-ligand interactions take place on surfaces and include but not limited to factors such as chemical composition, hydrophobicity, electronegavitiy and shape complementarity. Past studies showed that protein-protein interactions occur on comparatively fiat regions whereas protein-ligand bindings involve crevices. In the search for such sites various approaches have been designed and developed each of which is algorithmically unique. The use of grid units or voxels has been demonstrated in early studies with relatively good results obtained. We present here an approximated approach comprising of the use of voxels and computer vision methods in the search for ligand-binding areas. Each test protein is modelled and analysed in 2D with all corresponding residues graphically presented for successfully identified sites. The study was carried out on 2 sets of proteins: FK506-bound proteins and heme-bound proteins with promising results obtained for all test cases.
基金supported by the National Natural Science Foundation of China(50872133)the National Natural Science Fund for Distinguished Young Scholars of China(20725101)+1 种基金the National Basic Research Program of China(2011CB932504)the Natural Science Foundation of Fujian Province(E0510030 & 2008F3120)
文摘Six novel 3D layer-pillared lanthanide-transition metal coordination polymers,LnCuX(IN)2(Ac)(H2O)(Ln = Tb,X = Br(1);Ln = Er,X = Cl(2)),[LnCuCl(IN)2(Ac)].H2O(Ln = Gd(3);Ln = Eu(4)),and [LnCu2Br2(IN)2(Ac)(H2O)].nH2O(Ln = Dy,n =0(5);Ln = Gd,n = 0.5(6))(IN = isonicotinate,Ac = acetate),have been obtained by linking Ln-organic layers and diverse Cu-complex pillars under hydrothermal conditions.1 and 2 are isostructural and formed by 2D Ln-IN-Ac layers and CuX(IN)2 pillars(X = Br(1),X= Cl(2));3 and 4 are isomorphic and comprised of 2D Ln-IN-Ac layers and dimeric Cu2Cl(IN)4 pillars;while 5 and 6 are isostructural and built from 2D Ln-IN-Ac layers and tetrameric Cu4Br4(IN)4 pillars.The magnetic susceptibility investigation of 3 and 6 shows the presence of weak antiferromagnetic exchange interactions between the Ln3+ ions.Compounds 1-6 represent good examples of using 2D Ln-organic layers and diverse Cu-complex pillars as building units to construct intriguing 3D Ln-TM-organic frameworks.
基金supported by the National Natural Science Foundation of China (20971074, 91122004)Foundation for the Authors of Natural Excellent Doctoral Dissertation of China (200732)+1 种基金the Natural Science Foundation of Tianjin (10JCZDJC21700)the "100 Projects" of Creative Research for the Undergraduates of Nankai University
文摘Eight novel lanthanide complexes: {Ln(TDA)I.5(H20)2 },, (Ln = Pr(la), Nd(2a)) and { Ln(TDA)(Ac)(H2O)}n (Ln = Pr(1), Nd(2) Eu(3), Gd(4), Tb(5), Dy(6); TDA = Thiophene-2,5-dicarboxylic acid anion) have been constructed by hydrothermal reaction. Structural analyses reveal that complexes Ia and 2a belong to the space group C2/c, exhibiting three-dimensional (3D) frame- works. Complexes 1-6 with P2t/c space group were prepared in the presence of excessive ammonium acetate, giving rise to interesting 3D frameworks different from those of la and 2a. Magnetic property studies of 4-6 reveal the weak antiferromag- netic interaction exists between adjacent Gd3+ in 4. The complex 6 displays rather rare slow magnetization relaxation behavior in 3D frameworks.
