中位取代蒽类染料的荧光及化学发光性质

本文以蒽为母体 ,中位取代合成了 6种荧光染料 [9,10 -二苯基蒽 ( DPA) ,9,10 -二苯乙炔基蒽( BPEA) ,1-氯 - DPA,1-氯 - BPEA,1-甲氧基 - DPA,1-甲氧基 - BPEA]。考察了这些荧光染料在过氧草酸酯化学发光体系中的发光行为 ,并讨论了它们的结构与其化学发光波长及强度的关系     

La2O2S∶Mn2+荧光粉的微波合成及其荧光特性

Using La₂(SO₄)3 and the active carbon powder as reactants, La₂O₂S∶Mn²⁺ red phosphor was synthesized by microwave radiation method. The phosphor was characterized by means of X-ray diffraction (XRD), scanning electron microscopy (SEM), laser-diffraction size analyzer and fluorospectrophotometer. The XRD analysis showed that the phosphor was pure phase La₂O₂S. The phosphor of La₂O₂S∶Mn²⁺ showed hexagonal crystal structure with diverse shapes, such as spherical and rod, with average particle size of 10.22 μm. The emission and excitation spectra of the phosphor were determined by fluorospectrophotometer and the results showed that the excitation spectrum of the phosphor under 600 nm emission wavelength was excitation bands between 250 nm and 350 nm with a peak value of 303 nm. Then ,when exicited under UV 303 nm, the phosphor showed broad band emission of 550~700 nm with a peak at 607 nm. In addition, the optimal effects were obtained for the phosphor preparation when the concentration of the activator Mn²⁺ was x_Mn=0.01, the ratio of C and O (n_C / n_O) in the reactants was 0.6∶1, and the time of reaction was about 1 h. La₂O₂S∶Mn²⁺ has strong absorption of UV spectrum and can emit bright red light.     

Sr1-xZnxY2S4∶Er^3＋,Eu^2＋荧光粉的合成与发光特性的研究

采用碳酸盐前躯体高温分解法合成了Sr1-xZnxY2S4∶Er^3＋,Sr1-xZnxY2S4∶Eu^2＋和Sr1-xZnxY2S4∶Er^3＋,Eu^2＋红色荧光粉。XRD图谱表明,Zn^2＋掺杂量x〈0.2 mol时,粉末样品为CaFe2O4型正交晶体。Zn^2＋离子在Sr1-xZnxY2S4∶Er^3＋,Eu^2＋中的固溶量（xmol）对荧光粉的发射强度影响很大。随着Zn^2＋离子掺杂浓度的增加,Sr1-xZnxY2S4∶Er^3＋,Eu^2＋（SZYSEE）紫外区激发峰（200-413 nm）发生红移,并与可见光激发带（413-600 nm）形成一个连续的宽带谱,与紫外和GaN基LED芯片辐射都有良好的匹配性。当Zn^2＋掺杂量为0.1 mol时,SZYSEE的发光强度达到最大,其发光强度比未掺Zn2＋的增强10.7倍。Sr0.9Zn0.1Y1.76S4∶0.24Er^3＋,0.006Eu^2＋是一种潜在的白光LED用红色荧光粉。     

棚室作物吸收光谱的测定及其光生态膜的研制①

本文提取了长沙地区种植的小白菜、韭菜、芹菜等几种典型棚室蔬菜的叶绿素,测定了它们在丙酮溶液中的吸收光谱.根据其吸收光谱,采用向农膜树脂中添加光转换剂的方法,研制出与作物吸收光谱相匹配的光生态膜.初步栽培试验表明该膜具有促进植物生长和分化的作用,增产效果明显.     

Ce3+/Tb3+/Sm3+共掺CaO-B2O3-SiO2玻璃的光学性能调控

采用高温熔融法制备了Ce³⁺/Tb³⁺/Sm³⁺掺杂的CaO-B₂O₃-SiO₂（CBS）发光玻璃。通过傅利叶红外光谱仪、荧光光谱仪表征了该系列发光玻璃的微观结构和发光性质,并对Ce³⁺到Tb³⁺、Ce³⁺到Sm³⁺之间的能量传递机制进行了研究。结果表明,在339,378,407 nm激发下,单掺Ce³⁺、Tb³⁺和Sm³⁺的CBS玻璃分别发射紫蓝光、绿光和红光,恰好符合混合合成白光的条件。Ce³⁺/Tb³⁺和Ce³⁺/Sm³⁺双掺CBS玻璃的发射光谱以及Ce³⁺衰减寿命的变化证实了Ce³⁺→Tb³⁺和Ce³⁺→Sm³⁺之间存在能量传递,随Tb³⁺和Sm³⁺浓度增加,Ce³⁺的寿命减小,且传递效率由5.4%和5.7%分别增加至24.0%和27.1%。调节3种稀土离子的掺杂浓度并选择合适的激发波长,实现了发光颜色可调,并最终获得白光发射。     

空气中合成固溶体荧光粉Ba2(Zn, Mg)Si2O7:Ce3+,Eu2+,Eu3+及其发光特性

采用高温固相法在空气中合成了Ba_1.97-yZn_1-xMg_xSi₂O₇:0.03Eu,yCe³⁺系列荧光粉。分别采用X-射线衍射和荧光光谱对所合成荧光粉的物相和发光性质进行了表征。在紫外光330~360 nm激发下,固溶体荧光粉Ba_1.97-yZn_1-xMg_xSi₂O₇:0.03Eu的发射光谱在350~725 nm范围内呈现多谱峰发射,360和500 nm处有强的宽带发射属于Eu²⁺离子的4f⁶5d¹-4f⁷跃迁,590~725 nm红光区窄带谱源于Eu³⁺的⁵D₀-⁷F_J (J=1,2,3,4)跃迁,这表明,在空气气氛中,部分Eu³⁺在Ba_1.97-yZn_1-xMg_xSi₂O₇基质中被还原成了Eu²⁺;当x=0.1时,荧光粉Ba_1.97Zn_0.9Mg_0.1Si₂O₇:0.03Eu的绿色发光最强,表明Eu³⁺被还原成Eu²⁺离子的程度最大。当共掺入Ce³⁺离子后,形成Ba_1.97-yZn_0.9Mg_0.1Si₂O₇:0.03Eu,yCe³⁺荧光粉体系,其发光随着Ce³⁺离子浓度的增大由蓝绿区经白光区到达橙红区;发现名义组成为Ba_1.96Zn_0.9Mg_0.1Si₂O₇:0.01Ce³⁺,0.03Eu的荧光粉的色坐标为(0.323,0.311),接近理想白光,是一种有潜在应用价值的白光荧光粉。讨论了稀土离子在Ba₂Zn_0.9Mg_0.1Si₂O₇基质中的能量传递与发光机理。     

新型荧光粉Ca2Zn4Ti16O38∶Pr3+，Na+的合成和红色长余辉性质

采用溶胶-凝胶法合成了Ca2Zn4Ti16O38:Pr3+,Na+荧光粉.通过X-射线衍射和荧光光谱表征样品的物相组成和发光性质.X射线衍射(XRD)分析表明添加适量的H3BO3作助熔剂有利于形成良好的Ca2Zn4Ti16O38晶体结构.荧光光谱表明Ca2Zn4Ti16O38:Pr3+,Na+在可见光区(450～495 nm)呈现Pr3+离子的4f→4f厂特征激发光谱以及613 nm(1D2→3H4)和644 nm(3P0→3F2)特征发射.Ca2Zn4Ti16O38:Pr3+,Na+被可见光(475 nm)激发产生的(3P0→3F2)(644 nm)红色发射呈现出极慢的衰减特性.Ca2Zn4Ti16O38:Pr3+,Na+是一种新型的可见光激发红色长余辉荧光粉.