合成了未见报道的标题配合物。通过化学分析、ICP和TG曲线确定了其化学式为K_8H_3[Y(PW_(11)O_(39))_2]·25H_2O;利用IR、UV、XRD、^(183)W-NMR、循环伏安等手段对其结构进行了表征,结果表明杂多阴离子为β_2型Keggin结构。采用稀...合成了未见报道的标题配合物。通过化学分析、ICP和TG曲线确定了其化学式为K_8H_3[Y(PW_(11)O_(39))_2]·25H_2O;利用IR、UV、XRD、^(183)W-NMR、循环伏安等手段对其结构进行了表征,结果表明杂多阴离子为β_2型Keggin结构。采用稀土多元渗的方法对配合物进行了气相热扩渗,经ICP和XPS测试表明:微量的稀土元素La和Ce可以渗入到配合物的体相,并与组份元素存在键合作用。扩渗后化合物的化学式为K_8H_6YLa_(0.11)Ce_(0.18)P_2W_4~ⅤW_(18)~ⅥO_(78)·15H_2O,其晶体属单斜晶系,晶胞参数:a=6.3775nm,b=3.6771nm,c=3.7727nm,β=90.192°,V=88.47326nm^3;导电性的测试结果表明:室温时,扩渗后试样的电导率提高了约10~3倍,且热稳定范围变宽,523K时的电导率为1.33×10^(-2)S·cm^(-1),有望成为实用化的导电材料;~1H MAS NMR测试结果表明其存在三种质子,其导电机理可能是质子导电。展开更多
Two New heteropoly molydovanadateselenite complexes with formulas[Se2Mo2V4O24]8-and[Se2Mo3V3O24]7- were reported for the first time.These complexes were isolated at pH=2.It is proved that the ratios of Mo and V in mat...Two New heteropoly molydovanadateselenite complexes with formulas[Se2Mo2V4O24]8-and[Se2Mo3V3O24]7- were reported for the first time.These complexes were isolated at pH=2.It is proved that the ratios of Mo and V in materidal influence the constitution of complexes.These complexes were characterized by elemental analysis,IR,UV,XRD,molar conductance and TG-DTA.It is deduced that these complexes may have the basic skeleton of X2M6 structure.展开更多
Keggin-type phenylimido-polyoxometalates α-[PM12O39NPh]3- (M = W and Mo) have been systematically investigated on the electronic structures, redox as well as nonlinear optical (NLO) properties by density functional t...Keggin-type phenylimido-polyoxometalates α-[PM12O39NPh]3- (M = W and Mo) have been systematically investigated on the electronic structures, redox as well as nonlinear optical (NLO) properties by density functional theory (DFT). The strong M≡N bond confirmed by natural bond orbital (NBO) analysis comprises one σ bond and two π bonds, the same as Mo≡N in [Mo6O18NPh]2-. Furthermore, phenylimido segment effectively modifies the electronic properties of α-[PM12O39NPh]3-. On one hand, when enlarging the inorganic cluster from {Mo6O18} to {PMo12O39}, the energy gap between HOMO and LUMO in α-[PMo12O39NPh]3- decreased, resulting in enormously anodic shift for the reduction potential, while the excitation energy is less and the total second-order polarizability β0 is up to 438.3×10?30 esu, which is nearly 10 times larger than that of [Mo6O18NPh]2-. On the other hand, when metal W in α-[PM12O39NPh]3- is substituted by Mo, the interaction between Mo and N is enhanced and the redox ability becomes stronger. The β0 value for α-[PMo12O39NPh]3- is more than 5 times higher than that of α-[PW12O39NPh]3?. It indicates that changing appropriate metal or enlarging the inorganic cluster will improve the redox properties and second-order nonlinear response. Moreover, the electron transition for three compounds mentioned above occurred mainly from organoimido segment (as the electron donor) to polyanion cluster (as the acceptor). As a result, α-[PMo12O39NPh]3- may be a promising candidate for oxidant and nonlinear optical material.展开更多
文摘合成了未见报道的标题配合物。通过化学分析、ICP和TG曲线确定了其化学式为K_8H_3[Y(PW_(11)O_(39))_2]·25H_2O;利用IR、UV、XRD、^(183)W-NMR、循环伏安等手段对其结构进行了表征,结果表明杂多阴离子为β_2型Keggin结构。采用稀土多元渗的方法对配合物进行了气相热扩渗,经ICP和XPS测试表明:微量的稀土元素La和Ce可以渗入到配合物的体相,并与组份元素存在键合作用。扩渗后化合物的化学式为K_8H_6YLa_(0.11)Ce_(0.18)P_2W_4~ⅤW_(18)~ⅥO_(78)·15H_2O,其晶体属单斜晶系,晶胞参数:a=6.3775nm,b=3.6771nm,c=3.7727nm,β=90.192°,V=88.47326nm^3;导电性的测试结果表明:室温时,扩渗后试样的电导率提高了约10~3倍,且热稳定范围变宽,523K时的电导率为1.33×10^(-2)S·cm^(-1),有望成为实用化的导电材料;~1H MAS NMR测试结果表明其存在三种质子,其导电机理可能是质子导电。
文摘Two New heteropoly molydovanadateselenite complexes with formulas[Se2Mo2V4O24]8-and[Se2Mo3V3O24]7- were reported for the first time.These complexes were isolated at pH=2.It is proved that the ratios of Mo and V in materidal influence the constitution of complexes.These complexes were characterized by elemental analysis,IR,UV,XRD,molar conductance and TG-DTA.It is deduced that these complexes may have the basic skeleton of X2M6 structure.
基金Supported by National Natural Science Foundation of China (Grant No. 20573016)Training Fund of NENU’S Scientific Innovation Project (Grant No. NENU- STC07017)+1 种基金Science Foundation for Young Teachers of Northeast Normal University (Grant No. 20070304)Program for Changjiang Scholars and Innovative Research Team in University (PCSIRT)
文摘Keggin-type phenylimido-polyoxometalates α-[PM12O39NPh]3- (M = W and Mo) have been systematically investigated on the electronic structures, redox as well as nonlinear optical (NLO) properties by density functional theory (DFT). The strong M≡N bond confirmed by natural bond orbital (NBO) analysis comprises one σ bond and two π bonds, the same as Mo≡N in [Mo6O18NPh]2-. Furthermore, phenylimido segment effectively modifies the electronic properties of α-[PM12O39NPh]3-. On one hand, when enlarging the inorganic cluster from {Mo6O18} to {PMo12O39}, the energy gap between HOMO and LUMO in α-[PMo12O39NPh]3- decreased, resulting in enormously anodic shift for the reduction potential, while the excitation energy is less and the total second-order polarizability β0 is up to 438.3×10?30 esu, which is nearly 10 times larger than that of [Mo6O18NPh]2-. On the other hand, when metal W in α-[PM12O39NPh]3- is substituted by Mo, the interaction between Mo and N is enhanced and the redox ability becomes stronger. The β0 value for α-[PMo12O39NPh]3- is more than 5 times higher than that of α-[PW12O39NPh]3?. It indicates that changing appropriate metal or enlarging the inorganic cluster will improve the redox properties and second-order nonlinear response. Moreover, the electron transition for three compounds mentioned above occurred mainly from organoimido segment (as the electron donor) to polyanion cluster (as the acceptor). As a result, α-[PMo12O39NPh]3- may be a promising candidate for oxidant and nonlinear optical material.
