CN1180053C - 用紫光二极管将发光材料变换成绿色发光的方法 - Google Patents

用紫光二极管将发光材料变换成绿色发光的方法 Download PDF

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CN1180053C
CN1180053C CNB011405015A CN01140501A CN1180053C CN 1180053 C CN1180053 C CN 1180053C CN B011405015 A CNB011405015 A CN B011405015A CN 01140501 A CN01140501 A CN 01140501A CN 1180053 C CN1180053 C CN 1180053C
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materials
mole
crystal powder
diode
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CN1364850A (zh
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赵成久
蒋大鹏
刘学颜
侯风芹
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Changchun Institute of Optics Fine Mechanics and Physics of CAS
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Abstract

本发明属于发光与显示技术领域,涉及一种用紫光二极管将发光材料通过波长变换成绿色发光的方法。利用MMg2Al16O27·nB2O3:Eu2+·Mn2+结构的物料进行波长变换,将上述物料经均匀混合研磨后,装入Al2O3坩埚中,在氢氮或碳气氛中经常性1200℃-1400℃烧结2-3小时,取出冷却后经粉碎、过筛、后处理即得到发光晶体粉末,再经紫光二极管照射晶体粉末并对其进行波长变换从而形成绿色发光。可将发绿光的晶体粉末料混合后涂布在发紫外光二极管芯上并转换成绿光,使用该发光材料涂制的发绿光二极管转换效率高、显色性好、是新一代固体节能、无汞毒害的绿色照明光源。可广泛用于显示器辅助照明,仪表光源等领域。

Description

用紫光二极管将发光材料变换成绿色发光的方法
技术领域:本发明属于发光与显示技术领域,涉及一种用紫光二极管将发光材料通过波长变换成绿色发光的方法。
背景技术:目前由于半导体技术的快速发展,绿光的二极管已商品化,这种绿光二极管是由管芯发绿光。
发明内容:为了解决上述背景技术中由管芯发绿光的问题,本发明的目的在于提供一种用紫光二极管将发光材料通过波长变换成绿色发光的方法。
本发明利用M Mg2Al16O27·nB2O3:Eu2+·Mn2+结构的物料进行波长变换,M为选择Ca,Sr,Ba中至少一种金属元素;n代表B2O3的含量为:0.5摩尔>n≥0.005摩尔;向发光体中加入金属元素激活剂Eu2+选值范围为:0.0025摩尔-0.25摩尔;共激活剂Mn2+选值范围为:0.025摩尔-0.05摩尔;按上述分子结构的物料组成组配原料,可加入作为电荷补偿剂K,Na,Li的氟化物或NH4F2中的至少一种化合物,经均匀混合研磨后,装入Al2O3坩埚中,在氢氮或碳气氛中经1200℃-1400℃烧结2-3小时,取出冷却后经粉碎、过筛、后处理即得到所述结构的发光晶体粉末,将上述发光晶体粉末涂布在发紫光二极管的管芯上,再经紫光二极管照射晶体粉末,使晶体粉末吸收发紫光二极管的紫光即进行了波长变换从而形成绿色发光。
本发明利用的发光晶体粉末与紫光二极管进行波长变换形成发绿色光的发光材料,与背景技术在管芯发绿光不同。从图1中可以看出本发明的晶体粉末料混合后的发光材料在380nm光的激发下可产生主峰为380-700nm可见光。可将本发明的晶体粉末混合后涂布在发紫外光二极管芯上并转换成绿光,使用该发光材料涂制的发绿光二极管转换效率高,显色性好,是新一代固体节能、无汞毒害的绿色照明光源。可广泛用于显示器辅助照明,仪表光源等领域。
附图说明:图1是本发明晶体粉末的激发光谱图;
          图2是本发明晶体粉末的发射光谱图。
具体实施方式:
实施例1:采用M Mg2Al16O27·nB2O3:Eu2+·Mn2+,Eu2+制备的发光材料,按下列计量称取试剂物料:
    MgO(AR):8.064g;           BaCO3(AR):19.754g;
    Al2O3(AR):81.568g;      B2O3(AR):2.01g;
    Eu2O3(4N):0.88g;        MnCO3(AR):2.3g;
    NH4F2(AR):1.52g;
将上述物料经均匀混合研磨后,装入Al2O3坩埚中在1200-1400℃的氢氮或碳气氛中烧结2-3小时,取出冷却后经粉碎、过筛、后处理即得到发光晶体粉末。
实施例2:MgO(AR):8.064g;          BaCO3(AR):19.754g;
         Al2O3(AR):81.568g;     B2O3(AR)2.01g;
         Eu2O3(4N):0.88g;       MnCO3(AR):3.485g;
         NH4F2(AR):1.50g;烧制方法同实施例1。
实施例3:MgO(AR):8.064g;           BaCO3(AR):19.754g;
         Al2O3(AR):81.568g;      B2O3(AR)2.01g;
         Eu2O3(4N):0.88g;        MnCO3(AR):4.5908g;
         NH4F2(AR):1.50g;烧结方法同实施例1。
实施例4:MgO(AR):8.064g;           BaCO3(AR):19.754g
         Al2O3(AR):81.568g;      B2O3(AR)2.01g
         Eu2O3(4N):0.88g;        MnCO3(AR):5.748g
         NH4F2(AR):1.50g;烧结方法同实施例1
实施例5:MgO(AR):8.064g;           BaCO3(AR):17.761g
         SrCO3(AR):1.476g;         Al2O3(AR):81.564g
         B2O3(AR)2.01g;           Eu2O3(4N):0.88g
         MnCO3(AR):5.748g;        NH4F2(AR):1.50g
         烧结方法同实施例1。
实施例6:MgO(AR):8.064g;          BaCO3(AR):17.761g
         SrCO3(AR):1.00g;         Al2O3(AR):81.564g
         B2O3(AR)2.01g;          Eu2O3(4N):0.88g
         MnCO3(AR):5.748g;       NH4F2(AR):1.50g
         烧结方法同实施例1。
将上述发光晶体粉末涂布在发紫光二极管的管芯上,再经紫光二极管照射晶体粉末并对其进行波长变换从而形成绿色发光。

Claims (1)

1、用紫光二极管将发光材料变换成绿色发光的方法,其特征在于:利用 MMg2Al16O27·nB2O3∶Eu2+·Mn2+结构的物料进行波长变换,M为选择Ca,Sr,Ba中至少一种金属元素;n代表B2O3的含量为:0.5摩尔>n≥0.005摩尔;向发光体中加入金属元素激活剂Eu2+选值范围为:0.0025摩尔-0.25摩尔;共激活剂Mn2+选值范围为:0.025摩尔-0.05摩尔;按上述分子结构的物料组成组配原料,经均匀混合研磨后,装入Al2O3坩埚中,在氢氮或碳气氛中经1200℃-1400℃烧结2-3小时,取出冷却后经粉碎、过筛、后处理即得到所述结构的发光晶体粉末,将上述发光晶体粉末涂布在发紫光二极管的管芯上,再经紫光二极管照射晶体粉末,使晶体粉末吸收发紫光二极管的紫光进行了波长变换从而形成绿色发光。
CNB011405015A 2001-09-18 2001-09-18 用紫光二极管将发光材料变换成绿色发光的方法 Expired - Fee Related CN1180053C (zh)

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