SOL-GEL SYNTHESIS AND LUMINESCENCE OF GREEN LIGHT EMITTING PHOSPHORS ZN_2SIO4/MN^(2+)

Mn^2＋ doped Zn2SiO4 phosphors were synthesized by sol-gel method, and the influence of zinc source, Mn^2＋ dopant concentration and annealing temperature were investigated. Results show that zinc nitrate based precursor with strong green emission intensities is better than zinc acetate based precursor. The intensity of green light emission reaches a peak at 254 nm when the Mn^2＋ dopant concentration is about 5%（ molar percentage）. Structural details of the phosphors were examined through X-ray diffractometry, thermogravimetric and differential thermal analysis. The result indicates that they are both rhombohedral structures, which remain amorphous below 700 ℃ and crystallize completely around 1000 ℃. The luminescent properties of Zn2SiO4/Mn^2＋ phosphors were characterized by excitation and emission spectra.

双波长发射长余辉纳米颗粒Zn_(2)SiO_(4)∶Ga的制备及动态防伪应用

双波长发射的长余辉纳米材料在信息加密与防伪方面有着重要的应用潜能。采用水热和煅烧结合的方法,制备了具有双波长发射的Zn_(2)Si_(x)O_(4)∶Ga_(0.01)(x=0.8~1.2)长余辉纳米颗粒。通过优化合成过程中前驱体溶液的pH值和硅离子含量,使Zn_(2)Si_(x)O_(4)∶Ga_(0.01)获得了较好的长余辉发光性能。研究结果表明,Ga^(3+)掺杂对Zn_(2)SiO_(4)的晶体结构没有影响,当前驱体溶液pH值为7时,Zn_(2)Si_(1.1)O_(4)∶Ga_(0.01)纳米颗粒分散性较好,平均粒径为(86.18±1.26)nm。在254 nm紫外光激发下,Zn_(2)Si_(1.1)O_(4)∶Ga_(0.01)在417和770 nm两个波长下发射,417 nm下的平均发光寿命(τav)为54.05 s,770 nm下的平均发光寿命为96.35 s,在近红外区可观察到216 h的余辉发光,并成功应用于多模动态防伪中。双波长发射的Zn_(2)Si_(x)O_(4)∶Ga_(0.01)还将在生物传感与成像等领域具有潜在应用价值。

钐和锌双掺杂La_(9.33)(SiO_(4))_(6)O_(2)电解质的制备及其电导率

为提高磷灰石型电解质(LSO)的电导率,以氧化镧(La_(2)O_(3))、氧化锌(ZnO)和氧化钐(Sm_(2)O_(3))为主要原料通过尿素-硝酸盐燃烧法在600℃的温度下合成了掺杂钐和锌的La_(9.33)Sm_(x)Si_(5)ZnO_((25+1.5x))固体电解质粉末。采用X射线衍射、扫描电子显微镜、变温介电测量系统对样品进行物质结构、表面形貌、电导率的表征。研究了不同温度和不同掺杂浓度下La_(9.33)Sm_(x)Si_(5)ZnO_((25+1.5x))的电导率。结果表明,Sm和Zn成功掺杂进入LSO的晶格中,样品具有典型的P63/m磷灰石结构且纯度高,LSO的形貌未改变。当Sm掺杂浓度为0.6,Zn掺杂浓度为1时,在温度为650℃下La_(9.33)Sm_(x)Si_(5)ZnO_((25+1.5x))的电导率达到1.50×10^(-3) S/cm;确定了最佳烧结温度为1400℃。La_(9.33)Sm_(x)Si_(5)ZnO_((25+1.5x))的电导率在同一温度下随着掺杂量的增加先提高后降低,掺杂样品的晶胞参数相比于未掺杂样品的晶胞参数增大,活化能随着掺杂量的增大先降低后升高。此外La_(9.33)Sm_(x)Si_(5)ZnO_((25+1.5x))的电导率在同一掺杂量下,随着温度的升高而提高。