Synthesis and Luminescence Improvement of CaAlSiN_(3) Phosphors Doped with Eu^(2+) and Mn^(2+) for White LEDs

Eu^(2+) and Mn^(2+) co-activated CaAlSiN_(3) red phosphors were produced using the solid-state reaction tech⁃nique in a N2 environment.Excitation spectra,emission spectra,and diffuse reflection spectra were used to study the luminescence characteristics,energy gap,and thermal stability in detail.CaAlSiN_(3)∶Eu^(2+) exhibits an extended emission band when stimulated with 450 nm blue light,which is caused by the 4f65d to 4f7 transition of Eu^(2+).Similar⁃ly,CaAlSiN_(3)∶Mn^(2+) displays a wide emission band centered at 628 nm,which results from Mn^(2+)’s transition from 4T1(4G) to 6A1(6S).When the ions of Mn^(2+)were combined into CaAlSiN_(3)∶Eu^(2+),the photoluminescence intensity of Eu^(2+ )was greatly boosted because there was energy transfer and co-emission between Mn^(2+) and Eu^(2+).Beyond that,CaAlSiN_(3)∶Eu^(2+),Mn^(2+) emerges with splendid thermostability and high quantum efficiency,the quenching temperature surpasses 300℃,and the internal quantum efficiency is determined to be around 84.9%.The white LED was pack⁃aged with a combination of CaAlSiN_(3)∶Eu^(2+),Mn^(2+),LuAG∶Ce3+ and a blue chip.At a warm white-light corresponding color temperature(3009 K) with CIE coordinates(0.4223,0.3748),the color rendering index Ra has reached 93.2.CaAlSiN_(3)∶Eu^(2+),Mn^(2+) would have great application potential as a red-emitting phosphor for white LEDs.

高压水蒸气对β-Li_(2)TiO_(3:)Eu^(3+)荧光粉的全谱发光性能影响

采用水热法制备荧光粉前驱体后通过高温煅烧的方法,合成了由电偶极跃迁主导的高色纯度的β-Li_(2)TiO_(3):Eu^(3+)红色荧光粉.设计了适用于DHT11的拓扑电路,对荧光粉体湿度和温度进行测试.研究发现,高压腔体中加水量为5 mL,β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)的相对湿度可达81%RH.在波长为396 nm的近紫外光激发下,β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)发射由电偶极跃迁主导的613 nm的红光,荧光寿命为773.36μs,高压水蒸气处理对β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)的电偶极跃迁发射峰和磁偶极跃迁发射峰位置没有变化,但发射峰强度增强并且荧光寿命降至386.81μs.高压水蒸气高压处理后的荧光粉色坐标x=0.47,y=0.51,色温为3300 K,红光色纯度为96.6%,比高压处理前显示出更优异的显色性能.高压水蒸气处理后的β-Li_(2)TiO_(3):0.5 mol%Eu^(3+)电偶极跃迁谱线强度参数Ω_(2)增加至4.21×10^(-19)cm^(2),^(5)D_(0)→^(7)F_(2)跃迁的荧光分支比β2也增加至96.9%,而量子效率η减小至57%,证实了湿度对荧光粉的发光效率具有极大的影响.

Bi^(3+)、Eu^(3+)共掺杂La_(4)GeO_(8)荧光粉的制备及可调发光

为了开发出高效稳定的单一基质白光发射荧光材料,本工作通过高温固相法成功合成了一系列La_(4)GeO_(8)∶Bi^(3+),Eu^(3+)荧光粉样品,并通过X射线衍射、室温光谱、变温光谱等手段研究了实验样品的结构与发光性能。研究发现,Bi^(3+)离子在该结构中占据两种不同的格位(Bi^(3+)(Ⅰ)和Bi^(3+)(Ⅱ)),且在紫外光激发下呈现两个峰值分别在475 nm和620 nm的宽带发射。对于Bi^(3+)、Eu^(3+)共掺样品,由于Bi^(3+)(Ⅰ)与Eu^(3+)之间的竞争吸收、Bi^(3+)(Ⅰ)至Bi^(3+)(Ⅱ)以及Bi^(3+)(Ⅱ)至Eu^(3+)的能量传递作用,可实现蓝色至红色、橙红色至红色的可调发光。特别地,样品La_(4)GeO_(8)∶0.07Bi^(3+),0.06Eu^(3+)在313 nm光激发下可获得CIE值为(0.335,0.319)的优异白色发光。此外,该白光发射材料具有较佳的发光热稳定性,当温度升高至380 K时,发光积分强度仍然为室温的59%,表明其在白光二极管上具有潜在的应用价值。

用于痕量监测Zr^(4+)、Cr_(2)O_(7)^(2-)、Fe^(3+)、HPO_(4)^(2-)和指纹识别的功能化Eu^(3+)/Tb^(3+)配位聚合物荧光探针的构筑

采用芳香族π共轭及含氮原子有机连接剂,合成同构铽、铕发光配位聚合物(CPs){[Eu(PLIA)_(1.5)(H_(2)O)_(2)]·H_(2)O}_(n)(1)和{[Tb(PLIA)_(1.5)(H_(2)O)_(2)]·H_(2)O}_(n)(2),其中H_(2)PLIA=5-((吡啶-4-基甲基)氧基)苯-1,3-二甲酸。对合成的配合物进行了结构测定、表征和荧光痕量识别实验研究。2个同构配合物具有理想的三维框架结构,π…π堆积及氢键等弱相互作用增强了其化学稳定性;表征显示配位聚合物1和2具有良好的荧光性质、结晶性、热力学稳定性及结构完整性,可作为荧光传感的材料。1和2对水溶液中的Zr^(4+)、Cr_(2)O_(7)^(2-)和Fe^(3+)、HPO_(4)^(2-)具有选择性好、灵敏度高的荧光识别能力,其检出限分别为0.139μmol·L^(-1)(1,Zr^(4+))、0.626μmol·L^(-1)(1,Cr_(2)O_(7)^(2-))、0.430μmol·L^(-1)(2,Fe^(3+))、1.36μmol·L^(-1)(2,HPO_(4)^(2-))。探究了1和2作为探针的荧光猝灭机理。更有趣的是,1和2具有指纹识别性能,其荧光指纹纹路清晰连贯,细节明显,可被清晰观察。

Sr_(2)InP_(3)O_(11):Eu^(3+)红色荧光粉的发光性能及占位影响

红色荧光粉是提高发光二极管(LED)显色指数、降低色温的重要组分。本文选择具有红色特征发射的Eu^(3+)作为激活剂离子,以新型磷酸盐Sr_(2)InP_(3)O_(11)为荧光粉基质,通过高温固相反应合成了系列Sr_(2-x)InP_(3)O_(11):xEu^(3+)(简化为S_(2-x)IP_(3):xEu^(3+))和Sr_(2)In_(1-x)P_(3)O_(11):xEu^(3+)(简化为S_(2)I_(1-x)P_(3):xEu^(3+))荧光粉。利用XRD、室温及变温PL光谱、量子效率和荧光寿命,详细研究了所制备荧光粉的光致发光性能及其受阳离子位点(Sr位和In位)的影响规律。研究结果表明,这两类荧光粉在254nm和393nm激发下均可发出明亮的橘红光(593nm和612nm主导)。此外,所合成的荧光粉具有较好的色稳定性和热稳定性,表明其在荧光粉转换型白光LED照明和显示领域具有一定的发展潜力。

红色荧光粉CaWO_(4)∶Eu^(3+),Bi^(3+)的制备和光学性能的研究

本文采用高温固相法合成了一系列红色荧光粉CaWO_(4)∶Eu^(3+),Bi^(3+)。通过X射线衍射仪、扫描电子显微镜和荧光分光光度计等手段,对样品的晶体结构、微观形貌、光学性能、能量传递方式、荧光寿命和热稳定性进行了表征。结果表明,当Eu^(3+)和Bi^(3+)的掺杂浓度分别为7%和2%时(摩尔分数),荧光粉红色发光(615 nm)最强,理论计算得到荧光粉的平均颗粒尺寸为50.27 nm,这与电子显微镜观察结果相符合。能量传递方式以电偶极-电四极相互作用为主,对CaWO_(4)∶7%Eu^(3+),yBi^(3+)(y=0~6%)系列荧光粉进行了荧光寿命测量,发现它们荧光寿命基本相同,都在0.56 ms左右。对CaWO_(4)∶7%Eu^(3+),2%Bi^(3+)荧光粉在不同温度下的光谱进行比较,并且计算相应的色度坐标,当温度升高时,色度坐标整体左移,发光强度有所变弱,但整体来说热稳定性较好。较好的热稳定性和明亮红光发射表明该荧光粉可以作为潜在商用红光荧光粉。

Dy^(3+)/Eu^(3+)双掺杂CaLaGa_(3)O_(7)颜色可调荧光粉的制备与发光性能

本文采用高温固相法成功制备了一系列Eu^(3+)单掺和Dy^(3+)/Eu^(3+)双掺CaLaGa_(3)O_(7)单基质荧光粉。通过X射线衍射和发射光谱对荧光粉的物相及发光性能进行了表征。结果表明,所制备的样品均为四方结构,与基质晶体一致,表明成功合成了Eu^(3+)单掺和Dy^(3+)/Eu^(3+)双掺杂的CaLaGa_(3)O_(7)荧光粉。在波长393 nm近紫外光激发下,Eu^(3+)∶CaLaGa_(3)O_(7)表现出Eu^(3+)的特征红光发射(5 D0→7 F2),并且发光纯度高达100%。共掺Dy^(3+)之后,Dy^(3+)/Eu^(3+)双掺CaLaGa_(3)O_(7)荧光粉不仅可以被波长393 nm的光激发还可以被波长348 nm的光激发。不管是哪个波长的光激发,Dy^(3+)/Eu^(3+)∶CaLaGa_(3)O_(7)发射光谱同时包含了Eu^(3+)的特征红光发射和Dy^(3+)的特征黄光发射(4 F_(9/2)→6 H_(13/2))。通过对发射谱和荧光寿命分析得出,双掺荧光粉中Dy^(3+)和Eu^(3+)之间存在有效的能量传递过程。进一步计算了各个样品对应的色坐标,结果表明当激发波长由348 nm改变为393 nm时,色坐标整体上从黄绿色区域移动到黄橙光区域。因此,Dy^(3+)/Eu^(3+)∶CaLaGa_(3)O_(7)是一种光色可调发光材料,在显示和固态照明方面具有良好的应用前景。

基于Eu^(3+)-生物质碳量子点探针的比率型荧光传感体系检测盐酸四环素

该文以橙皮为原料制备的碳量子点(CDs)与铕离子(Eu^(3+))构建双发射比率型荧光探针(Eu^(3+)-CDs)并用于抗生素盐酸四环素的检测。在370 nm激发波长下,Eu^(3+)-CDs荧光探针在425 nm处出现较强的蓝色荧光峰,在617 nm处出现较弱的红色荧光峰。随着盐酸四环素浓度的逐渐增大,Eu3+与盐酸四环素螯合形成的配合物增多,在425 nm处的CDs荧光(I_(F425))逐渐减弱,而617 nm处铕配合物的荧光(I_(F617))逐渐增强,可基于荧光强度比I_(F617)/I_(F425)的变化对盐酸四环素进行测定。考察了Eu^(3+)的浓度、pH值和反应时间对探针荧光强度的影响。在最佳条件下,该双发射比率型荧光探针对盐酸四环素具有特异性识别能力,荧光强度比(I_(F617)/I_(F425))与盐酸四环素浓度在10~100µmol/L范围内存在良好的线性关系,相关系数r^(2)=0.9926,检出限为5.09µmol/L。该方法成功用于猪肉中盐酸四环素含量的检测,加标回收率为102%~110%,相对标准偏差为0.20%~2.4%,具有较好的实用性。

SrLaLiTeO_(6):Dy^(3+),Eu^(3+)荧光粉的制备及发光性能研究

白光发光二极管(LED)的商业合成方案缺少红光成分,导致合成的白光色温较高、显色性差,因此开发性能优异的单相暖白光荧光粉成为白光LED领域研究的重要课题。以Dy^(3+)和Eu^(3+)为掺杂剂,SrLaLiTeO_(6)(SLLT)为基质,采用固相反应法制备了SrLaLiTeO6:Dy^(3+),Eu^(3+)无机荧光粉,并通过X射线衍射仪、荧光分光光度计和色度坐标分析荧光粉的晶体结构及光学性能。结果表明:Dy^(3+)和Eu^(3+)成功进入SLLT晶体,无杂质产生;SLLT:0.07Dy^(3+),yEu^(3+)荧光粉在351 nm激发下能够同时发射蓝、黄、红光,证明了Dy^(3+)和Eu^(3+)之间存在能量传递,弥补了单掺Dy^(3+)荧光粉缺乏红色发射的缺陷;Eu^(3+)离子最佳掺杂浓度为0.05,此时的色度坐标为(0.391 9,0.380 9),色温为3 733 K,接近暖白光区域。因此,SrLaLiTeO_(6):Dy^(3+),Eu^(3+)荧光粉是一种性能优异的暖白光LED荧光粉。

Tb^(3+)、Eu^(3+)离子共掺杂的MgAl_(2)O_(4)发光性能研究

采用水热辅助固相法,以Al(NO_(3))_(3)·9H_(2)O和Mg(NO_(3))_(2)·6H_(2)O为原料,尿素为沉淀剂,制备了Tb^(3+)、Eu^(3+)共掺杂镁铝尖晶石荧光粉。用X射线衍射、扫描电子显微镜对所得产物的相结构和形貌予以表征,结合荧光激发、发射光谱和CIE色度图分析了荧光粉的光致发光性能。结果表明:在一定浓度范围内,掺杂Tb3+和Eu^(3+)离子后基质MgAl_(2)O_(4)的晶体结构并未发生改变,而当引入沉淀剂后,获得了具有良好分散性的棒状颗粒,且Tb^(3+)与Eu^(3+)间的浓度变化对样品形貌的影响甚微。在此基础上,以377 nm近紫外光作为激发光源实现了可见光区由粉至红的多色可调谐发射。

NaCa_(2)Mg_(2)(VO_(4))_(3)∶Eu^(3+)颜色可调荧光粉的熔盐法合成及其发光性能研究

以廉价的NaCl为熔盐,采用熔盐法合成了NaCa_(2-x)Mg_(2)(VO_(4))_(3)∶xEu^(3+)(0≤x≤0.10)系列颜色可调荧光粉,系统研究了合成条件、Eu^(3+)掺杂对样品结构及发光性能的影响。结果表明,反应温度为800℃、反应时间为0.5 h、原料与熔盐的质量比为1∶3是合成NaCa_(2)Mg_(2)(VO4)_(3)的适宜反应条件,所得样品为NaCa_(2)Mg_(2)(VO_(4))_(3)纯相,且结晶度高。样品微观形貌随着反应温度的升高由珊瑚状演变为表面光滑的不规则多面体。Eu^(3+)掺杂对NaCa_(2)Mg_(2)(VO_(4))_(3)的晶体结构影响较小,但对其发光性能影响较大。随着Eu^(3+)浓度(x)的增加,VO_(4)^(3-)的特征发射带强度逐渐减弱;而Eu^(3+)的特征发射峰强度先增大后减小,当x=0.06时,达到最大。故通过改变Eu^(3+)浓度,可对样品的发光颜色进行调制,从绿色可调制为黄绿色、黄色、黄白色、橙红色。荧光光谱与荧光寿命分析表明,NaCa_(2)Mg_(2)(VO_(4))_(3)∶Eu^(3+)体系中存在VO43-到Eu^(3+)的能量转移过程,能量转移效率约为23%;热稳定性分析结果表明,当温度从室温(298.15 K)升高到398.15 K时,NaCa_(1.94)Mg_(2)(VO_(4))_(3)∶0.06Eu^(3+)荧光粉在614 nm处的主发射峰强度可保留起始值的68.4%,表现出良好的热稳定性。

红色超敏LaAlO_(3)∶Eu^(3+)纳米荧光粉的X射线激发光谱及其CIE色度特性

采用溶液燃烧合成法制备新型红色超敏La AOl_(3)∶Eu^(3+)纳米荧光粉,合成的La AOl_(3)∶Eu^(3+)材料具备纯R3c(No.167)结构.采用光谱学方法,研究La AOl_(3)∶Eu^(3+)纳米荧光粉的X射线激发光谱性质.结果显示,在X射线激发下,La AOl_(3)∶Eu^(3+)纳米荧光粉发射出很强的红色荧光,谱带中心波长位于620nm处,发光的淬灭浓度是6.0mol%.CIE色度研究表明,样品具有优良的红色荧光发射特性且浓度效应对色调和色纯度影响较小.说明合成的荧光粉可作为高效闪烁体,在超紫外LEDs和辐射探测等领域有重要的应用价值.

Oxygen vacancy defects engineering on Cu-doped Co_(3)O_(4) for promoting effective COS hydrolysis

The activation of H_(2)O is a key step of the COS hydrolysis,which may be tuned by oxygen vacancy defects in the catalysts.Herein,we have introduced Cu into Co_(3)O_(4) to regulate the oxygen vacancy defect content of the catalysts.In situ DRIFTS and XPS spectra reveal that COS and H_(2)O are adsorbed and activated by oxygen vacancy.The 10 at%Cu doped Co_(3)O_(4) sample(10Cu-Co_(3)O_(4))exhibits the optimal activity,100%of COS conversion at 70℃.The improved oxygen vacancies of CueCo_(3)O_(4) accelerate the activation of H_(2)O to form active -OH.COS binds with hydroxyl to form the intermediate HSCO^(-)_(2),and then the activated-OH on the oxygen vacancy reacts with HSCO^(-)_(2) to form HCO^(-)_(3).Meanwhile,the catalyst exhibits high catalytic stability because copper species(Cu+/Cu^(2+))redox cycle mitigate the sulfation of Co_(3)O_(4)(Co^(2+)/Co^(3+)).Our work offers a promising approach for the rational design of cobalt-related catalysts in the highly efficient hydrolysis COS process.

A ratiometric fluorescent probe for hypoxanthine detection in aquatic products based on the enzyme mimics and fluorescence of cobalt-doped carbon nitride

A ratiometric fluorescent probe for hypoxanthine(Hx)detection was established based on the mimic enzyme and fluorescence characteristics of cobalt-doped graphite-phase carbon nitride(Co doped g-C_(3)N_(4)).In addition to emitting strong fluorescence,the peroxidase activity of Co doped g-C_(3)N_(4)can catalyze the reaction of O-phenylenediamine and H_(2)O_(2)to produce diallyl phthalate which can emit yellow fluorescence at 570 nm.Through the decomposition of Hx by xanthine oxidase,Hx can be indirectly detected by the generating hydrogen peroxide based on the measurement of fluorescent ratio I(F_(570)/F_(370)).The linear range was 1.7-272.2 mg/kg(R^(2)=0.997),and the detection limit was 1.52 mg/kg(3σ/K,n=9).The established method was applied to Hx detection in bass,grass carp,and shrimp,and the data were verified by HPLC.The result shows that the established probe is sensitive,accurate,and reliable,and can be used for Hx detection in aquatic products.

Eu^(3+)掺杂Y_(2)MgTiO_(6)红色荧光粉的制备及发光性质研究

采用溶胶-凝胶法制备出Y_(2-2 x)MgTiO_(6)∶2 x Eu^(3+)(YMT∶2 x Eu^(3+),0≤x≤0.11)新型红色荧光粉。通过X射线衍射仪(XRD)检测样品的纯度,结果显示YMT∶Eu^(3+)样品属于单斜晶系,空间群为P21/n,无其他杂相。扫描电子显微镜(SEM)照片显示荧光粉为2μm的不规则颗粒。当激发波长为264 nm时,发射光谱出现四个尖锐的发射峰,分别位于591(^(5)D_(0)→^(7)F_(1))、619(^(5)D_(0)→^(7)F_(2))、657(^(5)D_(0)→^(7)F_(3))和693 nm(^(5)D_(0)→^(7)F_(4))。Eu^(3+)离子之间能量传递为电偶极子-电偶极子(d-d)相互作用。YMT∶0.14Eu^(3+)荧光粉的CIE色度坐标为(0.645,0.332),与红光标准色坐标(0.67,0.33)非常接近。变温PL光谱及热激活能计算结果显示荧光粉具有一定的热稳定性,因此YMT∶Eu^(3+)是一种具有潜在应用价值的LED红色荧光粉。

基于Sm^(3+)敏化的红色荧光粉Na_(5)Y(MoO_(4))_(4)∶Eu^(3+)发光性能研究

采用高温固相法制备了一系列新型Na_(5)Y _(1-x)(MoO_(4))_(4)∶x Eu^(3+)(x=0~0.14)和Na_(5)Y_(0.9)-y(MoO_(4))_(4)∶0.1Eu^(3+),y Sm^(3+)(y=0~0.08)红色荧光粉,并对Na_(5)Y _(1-x)(MoO_(4))_(4)∶x Eu^(3+)(x=0~0.14)和Na_(5)Y_(0.9)-y(MoO_(4))_(4)∶0.1Eu^(3+),y Sm^(3+)(y=0~0.08)的物相结构、发光性能、热稳定性、荧光寿命等性能进行了研究。结果表明,在单掺Eu^(3+)的条件下,Na_(5)Y _(1-x)(MoO_(4))_(4)∶x Eu^(3+)(x=0~0.14)荧光粉在395nm紫外光激发下,发射出峰值波长在615nm的强红光,其掺杂浓度为x=0.1,样品的发光强度最高。进一步探究Sm^(3+)对Eu^(3+)在Na_(5)Y _(1-x)(MoO_(4))_(4)∶x Eu^(3+)(x=0~0.14)中的敏化增强作用。通过研究该样品不同Sm^(3+)掺杂浓度下的荧光发射谱,发现Sm^(3+)敏化增强的最佳掺杂浓度为y=0.04;相较于单掺Eu^(3+)的样品,Sm^(3+)敏化后的样品其发光强度为原来的113.8%。Sm^(3+)敏化后的样品存在能量传递现象,能量传递机制为Eu^(3+)与Sm^(3+)之间的电偶极-电偶极相互作用。温度相关荧光发射谱实验结果表明Na_(5)Y_(0.86)(MoO_(4))_(4)∶0.1Eu^(3+),0.04Sm^(3+)具有较好的热稳定性,在437K时荧光发射强度约为室温时的70%左右,而Na_(5)Y_(0.9)(MoO_(4))_(4)∶0.1Eu^(3+)在437K时的荧光发射强度约为室温时的68%左右。因此,Sm^(3+)敏化的Eu^(3+)掺杂Na_(5)Y(MoO_(4))_(4)荧光粉在白光LED领域中具有较大的应用可能性。

CaMoO_(4):Eu^(3+)荧光材料的合成及其在手印显现中的应用

目的:传统手印显现材料在使用过程中因与客体背景颜色、花纹图案反差较小,导致手印显现的对比度不高。另外,大多数传统粉末的吸附能力较弱,未能充分反映手印的细节特征,导致手印显现的灵敏度不高。方法:采用高温煅烧法制备了CaMoO_(4):Eu^(3+)荧光材料,并通过X射线粉末衍射仪和荧光光谱仪对材料的物相组成及光学性能进行了分析,在此基础上重点考察了材料对不同类型非渗透性客体表面潜在手印的显现性能。结果:在紫外光的激发下,CaMoO_(4):Eu^(3+)荧光材料发射出明亮的红色荧光;CaMoO_(4):Eu^(3+)荧光材料在手印显现过程中,可使显现的手印和客体背景之间产生较大的对比反差,且显现的手印展现出更多的细节特征(1~3级特征清晰可辨)。结论:CaMoO_(4):Eu^(3+)荧光材料在手印显现过程中展现出了较高的对比度和灵敏度,为后续的手印鉴定工作提供了强有力保障,具备潜在的一线公安实战应用前景。

新型红色荧光粉Sr_(3)CaNb_(2)O_(9):Sm^(3+),Eu^(3+)的发光特性和能量传递分析

利用高温固相反应法制备一系列单基质荧光粉Sr_(3)CaNb_(2)O_(9):xSm^(3+),yEu^(3+)(x=0.04~0.09,y=0.03~0.15),并对样品的物相形貌、发光性能、能量传递机制和CIE色坐标进行分析。研究表明,Sr_(3)CaNb_(2)O_(9):xSm^(3+)荧光粉在激发波长为407 nm时的浓度淬灭点为x=0.07。在Sr_(3)CaNb_(2)O_(9):0.07Sm^(3+),yEu^(3+)荧光粉中,随着Eu^(3+)掺杂浓度的增加,Sm^(3+)的发光强度降低而Eu^(3+)发光强度却先增加后降低,Eu^(3+)的浓度淬灭点为y=0.09。Sm^(3+)→Eu^(3+)的能量传递以电偶极-电偶极相互作用为主,能量传递效率达到76.6%。色坐标图表明Eu^(3+)离子的加入可使色坐标从橙红色区域向纯红色区域移动。此外,样品还具有较高的色纯度和较低的色温。结果表明,Sr_(3)CaNb_(2)O_(9)∶Sm^(3+),Eu^(3+)荧光粉有望成为白光LED发出红光物质的候选材料。

植物补光灯用Sr_(3)LiSbO_(6):Mn^(4+),Eu^(3+)荧光粉的制备及发光性能

目的:探究一种新型植物补光灯用荧光粉的制备与发光性能。方法:采用高温固相法制备红色荧光粉Sr_(3)LiSbO_(6):Mn^(4+),Eu^(3+),分析其XRD、SEM、发光性能、热稳定性、寿命衰减和色度坐标。结果:制得的荧光粉可被305 nm紫外光激发,其中Sr_(3)LiSbO_(6):0.2%Mn^(4+),14%Eu^(3+)具有最佳发光强度,并在698 nm处呈现强的红光荧光辐射。同时探究样品的浓度猝灭效应,将猝灭归因于偶极-偶极(d-d)相互作用。探讨样品的热稳定性,在155℃下的发光强度为室温下的64.5%。同时对样品的荧光寿命和CIE进行系统分析,结果表明利用最佳荧光粉封装的LED呈现强的红光荧光辐射。结论:制得的Sr_(3)LiSbO_(6:)Mn^(4+),Eu^(3+)荧光粉是一种新型LED红色荧光材料。荧光发射谱与植物光敏色素P fr和P r的光谱比对表明,基于该荧光粉封装的LED在植物照明方面具有较好的应用前景。

Preparation of Sn-doped Ga_(2)O_(3) thin films and their solar-blind photoelectric detection performance

Sn doping is an effective way to improve the response rate of Ga_(2)O_(3) film based solar-blind detectors. In this paper,Sn-doped Ga_(2)O_(3) films were prepared on a sapphire substrate by radio frequency magnetron sputtering. The films were characterized by X-ray diffraction, scanning electron microscopy, X-ray photoelectron spectroscopy and ultraviolet visible spectroscopy, and the effect of annealing atmosphere on the properties of films was studied. The Ga_(2)O_(3) films changed from amorphous to β-Ga_(2)O_(3) after annealing at 900 °C. The films were composed of micro crystalline particles with a diameter of about 5–20 nm.The β-Ga_(2)O_(3) had high transmittance for wavelengths above 300 nm, and obvious absorption for solar-blind signals at 200–280 nm.The metal semiconductor metal type solar-blind detectors were prepared. The detector based on Sn-doped β-Ga_(2)O_(3) thin film annealed in N_2 has the best response performance to 254 nm light. The photo-current is 10 μA at 20 V, the dark-current is 5.76 pA,the photo dark current ratio is 1.7 × 10~6, the response rate is 12.47 A/W, the external quantum efficiency is 6.09 × 10~3%, the specific detection rate is 2.61 × 10~(12) Jones, the response time and recovery time are 378 and 90 ms, respectively.