3 resultados para 338. 3
em Chinese Academy of Sciences Institutional Repositories Grid Portal
Resumo:
本工作用固相反方法、以炭保护或在N_2-H_2还原气氛中,两次灼烧,合成了一系列烯土取代的卤磷酸盐发光体,其反应是M_2~ICO_3 + M_3~(II)(PO_4)_2 + M_2~(III)O_3 + (NH_4)_2HPO_4 + M~(II)F_2 → M_x~IM_(10-2x)~(II)M_x~(III)(PO_4)_6F_2 + NH_3 + H_2O式中:M~I = Li~+, Na~+, K~+; M~(II) = Ca~(2+), Sr~(2+); M~(III) = Y~(3+), La~(3+), Gd~(3+); X = 0.5, 1, 2, 3。通过X-射线分析法和以Eu~(3+)作为荧光离子探针方法确定了样品的物相和晶体结构,表明它与M_(10)~(II)(PO_4)_6F_2同属六方晶系(Pb_3/m)。并用图解外推法求得样品的晶胞参数a和c分别为9.41和6.89 A。在研究了M~I, M~(II)和M~(III)为不同阳离子,X为不同值时,取代物的物相和结构变化以及对Ce~(3+)发光和能量传递影响规律的基础上,以Na_2Ca_6La_2(PO_4)_6F_2为基本体系比较详细地研究了Ce~(3+)的发光,Ce~(3+)-Mn~(2+), Ce~(3+)-Re~(3+) (Re~(3+) = Pr~(3+)、Nd~(3+)、Sm~(3+)、Tb~(3+)、Dy~(3+)、Tm~(3+)、Ho~(3+)、Er~(3+))以及Ce~(3+)-Mn~(2+)-Re~(3+) (Re~(3+) = Dy~(3+), Nd~(3+))的能量传递。实验发现,Na_2Ca_6La_2(PO_4)_6F_2:Ce~(3+)是较强的紫外光发射体,发射谱带是由338358nm两个宽带峰组成的,相应于~2D-~2F_(5/2)和~2D-~2F_(1/2)跃迁。发射强度和~2D-~2F_(6/2),~2D-~2F_(7/2)两种辐射跃迁几率相对大小与温度,Ce~(3+)的浓度有关;F~-含量对发射强度也有强烈的影响。我们认为,浓度和温度的影响是由于Ce~(3+)-Ce~(3+)的能量迁移作用。实验发现,Ce~(3+)能有效地敏化Mn~(2+)的发光,得到高效的黄色荧光发射体。Ce~(3+)对Re~(3+)的作用可以分为三类:A). Ce~(3+)-Sm~(3+)、Tb~(3+)、Dy~(3+)、Tm~(3+);B).Ce~(3+)-Nd~(3+),Pr~(3+);C). Ce~(3+)-Ho~(3+), Er~(3+)。在A,B类型中,Ce~(3+)能有效地敏化这些稀土离子,但能量传递效率(η_T)_A > (η_T)_B。在Ce~(3+)-Ho~(3+)、Ce~(3+)-Er~(3+)类型中,Ho~(3+)、Er~(3+)不产生可见辐射,Ce~(3+)的发射强度也显著降低。在Ce~(3+)-Mn~(2+)-Re~(3+)三元中心体系中,Ce~(3+)的能量可直接传递给Mn~(2+)和Re~(3+)中心,还可通过Ce~(3+)-Mn~(2+)-Re~(3+)的途径传递。通过研究中心离子的浓度效应,温度效应、测定激发光谱、荧光光谱、荧光衰减曲线的荧光寿命,能够证实:在Ce~(3+)-Mn~(2+)、Ce~(3+)-Re~(3+)、Ce~(3+)-Mn~(2+)-Re~(3+)的能量传递属于无辐射共振传递相互作用类型。符合M. Yokata等人提出的偶极-偶极相互作用扩散限制传递历程。我们还利用Ce~(3+)、Ce~(3+)-Mn~(2+)、Ce~(3+)-Re、Ce~(3+)-Mn~(2+))-Re~(3+)激活体系中Ce~(3+)的发射强度和荧光寿命等数据计算了Ce~(3+)的能量传递效率。发现两种结果相差较大,为了准确地表达Ce~(3+)的敏化效果,在分析上了产生这种误差的原因后,提出了两种传递效率表示式(η_f, η_R)。
Resumo:
A reversed-phase high-performance liquid chromatography with series dual glassy carbon electrodes for the amperometric detection of water-soluble menadione is described. The complex post-column derivatization reaction and the high background currents were avoided. The menadione sodium bisulfite was reduced at -0.3 V vs. SCE at the upstream (generator) electrode and oxidized at +0.2V vs. SCE at the downstream (collector) electrode. The mobile phase was 0.2moll(-1) HAc-NaAc aqueous buffer (pH 5.50) and 40% (v/v) methanol. The linear response was in the range of 35 ng to 15 mu g, with a detection Limit of 15 ng (S/N=3). The correlation coefficient was 0.9997 (n=6). The electrochemical detection with series dual electrodes has a higher selectivity for menadione (vitamin K-3) compound than with UV detection.
