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    • 2. 发明授权
    • Polymeric matrix with organic phosphor and manufactory thereof
    • 具有有机荧光体的聚合物基质及其制造方法
    • US09153753B2
    • 2015-10-06
    • US13982889
    • 2012-01-27
    • Rifat Ata Mustafa HikmetJan Cornelis KriegePaulus Albertus Van Hal
    • Rifat Ata Mustafa HikmetJan Cornelis KriegePaulus Albertus Van Hal
    • H01L33/00H01L33/50C09K11/06B29D7/01G02B5/20
    • H01L33/502B29D7/01C09K11/06C09K2211/1011G02B5/206H01L33/50
    • A method for manufacturing a wavelength converting element (202, 301, 302, 303, 310, 312) the method comprising providing (100) a polymeric carrier material (200) having a first wavelength converting material (201) dispersed or molecular dissolved therein; the first wavelength converting material (201) is adapted to convert light of a first wavelength to light of a second wavelength, deforming (101) the polymeric carrier material at a first temperature at or above the glass transition temperature thereof such that at least part of the polymeric carrier material (200) is crystallized; and annealing (102) the polymeric carrier material(200) at a second temperature below the melting temperature thereof. Treatment of a polymeric material(200) according to the invention improves the stability and lifetime of a wavelength converting material (201) comprised in a such a treated polymeric material. A polymeric material (200) treated according to the invention may comprise polymeric molecules having a degree of crystalline being 10% by volume or more.
    • 一种用于制造波长转换元件(202,301,302,303,310,312)的方法,包括提供(100)具有分散或分子溶解在其中的第一波长转换材料(201)的聚合物载体材料(200) 第一波长转换材料(201)适于将第一波长的光转换成第二波长的光,在其玻璃化转变温度以上的第一温度使聚合物载体材料变形(101),使得至少部分 聚合物载体材料(200)结晶; 以及在低于其熔融温度的第二温度下退火(102)聚合物载体材料(200)。 根据本发明的聚合材料(200)的处理改善了包含在这种经处理的聚合材料中的波长转换材料(201)的稳定性和寿命。 根据本发明处理的聚合材料(200)可以包含结晶度为10体积%以上的聚合物分子。
    • 3. 发明授权
    • Illumination system, light source and beam-control element
    • 照明系统,光源和光束控制元件
    • US08696167B2
    • 2014-04-15
    • US12676632
    • 2008-09-08
    • Rifat Ata Mustafa HikmetTies Van Bommel
    • Rifat Ata Mustafa HikmetTies Van Bommel
    • F21V17/02
    • F21V14/06F21L4/005F21V7/0091F21V14/00F21V14/04F21V14/065F21V14/08F21Y2115/10G02B3/14G02B5/021G02B5/0252G02B5/0278G02B27/0933
    • The invention relates to an illumination system (50), a beam-control element and a light source (30). The illumination system comprises the light source for emitting a light beam and a beam-control element for controlling the shape and/or direction of the light beam. The beam-control element comprises a resilient layer (2a) and a further layer (4a) being arranged substantially parallel to each other, the resilient layer comprising a relief (21) on a surface of the resilient layer arranged substantially parallel to the further layer, or the further layer comprising the relief on a surface of the further layer facing the resilient layer. The illumination system further comprises moving means (52) for moving the resilient layer and the further layer with respect to each other for reducing the relief by applying a pressure between the resilient layer and the further layer. The relief controls the shape and/or direction of the light-beam. When the relief is reduced by applying pressure, the light beam is substantially unaltered by the beam-control element.
    • 本发明涉及照明系统(50),光束控制元件和光源(30)。 照明系统包括用于发射光束的光源和用于控制光束的形状和/或方向的光束控制元件。 光束控制元件包括弹性层(2a)和基本上彼此平行地布置的另外的层(4a),弹性层包括在基本上平行于另一层布置的弹性层的表面上的浮雕(21) 或者在另一层的面向弹性层的表面上包括浮雕的另外的层。 照明系统还包括用于相对于彼此移动弹性层和另一层的移动装置(52),以通过在弹性层和另一层之间施加压力来减小浮雕。 浮雕控制光束的形状和/或方向。 当通过施加压力来减小浮雕时,光束基本上不被梁控制元件改变。
    • 4. 发明申请
    • luminescent converter for a phosphor enhanced light source
    • 用于荧光增强光源的发光转换器
    • US20140021857A1
    • 2014-01-23
    • US14009865
    • 2012-04-03
    • Ties Van BommelRifat Ata Mustafa HikmetJan Cornelis Kriege
    • Ties Van BommelRifat Ata Mustafa HikmetJan Cornelis Kriege
    • C09K11/06H05B33/12
    • C09K11/06C09K11/7774C09K2211/1011C09K2211/1029C09K2211/1044H01L33/504H05B33/12
    • A luminescent converter 200, 220, 240, 260, a phosphor-enhanced light source and a luminaire are provided. The luminescent converter 200 comprises a first organic luminescent material 202, a second organic luminescent material 208 and a third inorganic luminescent material 206. The first organic luminescent material 202, the second organic luminescent material 208 and the inorganic luminescent material 206 absorb a portion of light emitted by the light source and/or absorbs a portion of light emitted by at least one of the other luminescent materials. The first organic luminescent material 202 converts at least a part of the absorbed light into light of a first color distribution. The second organic luminescent material 208 converts at least a part of the absorbed light into light of a second color distribution. The inorganic luminescent material 206 converts at least a part of the absorbed light into a third color distribution to compensate self-absorption of light by at least one of the first organic luminescent material 202 and the second organic luminescent material 208.
    • 提供了发光转换器200,220,240,260,荧光增强光源和照明器。 发光转换器200包括第一有机发光材料202,第二有机发光材料208和第三无机发光材料206.第一有机发光材料202,第二有机发光材料208和无机发光材料206吸收一部分光 由光源发射和/或吸收由至少一种其它发光材料发射的光的一部分。 第一有机发光材料202将至少一部分吸收的光转换为第一颜色分布的光。 第二有机发光材料208将吸收的光的至少一部分转换为第二颜色分布的光。 无机发光材料206将吸收的光的至少一部分转换为第三颜色分布,以补偿由第​​一有机发光材料202和第二有机发光材料208中的至少一个的光的自吸收。
    • 5. 发明申请
    • Polymeric Matrix With Organic Phosphor and Manufactory Thereof
    • 有机荧光体聚合物基质及其制备方法
    • US20130307010A1
    • 2013-11-21
    • US13982889
    • 2012-01-27
    • Rifat Ata Mustafa HikmetJan Cornelis KriegePaulus Albertus Van Hal
    • Rifat Ata Mustafa HikmetJan Cornelis KriegePaulus Albertus Van Hal
    • H01L33/50
    • H01L33/502B29D7/01C09K11/06C09K2211/1011G02B5/206H01L33/50
    • A method for manufacturing a wavelength converting element (202, 301, 302, 303, 310, 312) the method comprising providing (100) a polymeric carrier material (200) having a first wavelength converting material (201) dispersed or molecular dissolved therein; the first wavelength converting material (201) is adapted to convert light of a first wavelength to light of a second wavelength, deforming (101) the polymeric carrier material at a first temperature at or above the glass transition temperature thereof such that at least part of the polymeric carrier material (200) is crystallized; and annealing (102) the polymeric carrier material(200) at a second temperature below the melting temperature thereof. Treatment of a polymeric material(200) according to the invention improves the stability and lifetime of a wavelength converting material (201) comprised in a such a treated polymeric material. A polymeric material (200) treated according to the invention may comprise polymeric molecules having a degree of crystalline being 10% by volume or more.
    • 一种用于制造波长转换元件(202,301,302,303,310,312)的方法,包括提供(100)具有分散或分子溶解在其中的第一波长转换材料(201)的聚合物载体材料(200) 第一波长转换材料(201)适于将第一波长的光转换成第二波长的光,在其玻璃化转变温度以上的第一温度使聚合物载体材料变形(101),使得至少部分 聚合物载体材料(200)结晶; 以及在低于其熔融温度的第二温度下退火(102)聚合物载体材料(200)。 根据本发明的聚合材料(200)的处理改善了包含在这种经处理的聚合材料中的波长转换材料(201)的稳定性和寿命。 根据本发明处理的聚合材料(200)可以包含结晶度为10体积%以上的聚合物分子。
    • 6. 发明申请
    • LIGHT-EMITTING ARRANGEMENT
    • 发光布置
    • US20130175920A1
    • 2013-07-11
    • US13825694
    • 2011-09-19
    • Rifat Ata Mustafa HikmetJohannes Franciscus Maria Cillessen
    • Rifat Ata Mustafa HikmetJohannes Franciscus Maria Cillessen
    • H05B33/04H05B33/14
    • H05B33/04F21K9/232F21K9/64F21V31/00F21V31/03F21Y2115/10H01L51/5259H05B33/14
    • The invention provides a light-emitting arrangement (100, 200, 300), comprising: a light source (101, 201, 301) adapted to emit light of a first wavelength; a wavelength converting member (106, 206, 306) comprising a wavelength converting material adapted to receive light of said first wavelength and to convert at least part of the received light to light of a second wavelength; a sealing structure (103) at least partially surrounding said wavelength converting member to form a sealed cavity (105, 205, 305) containing at least said wavelength converting member, said cavity containing a controlled atmosphere; and a getter material (108, 208, 308) arranged within said sealed cavity, wherein said getter material is adapted to operate in the presence of water and/or produces water as a reaction product. Such getter materials have high capacity for removal of oxygen from the atmosphere within the sealed cavity, such that a low oxygen concentration can be maintained within the cavity. Hence, the lifetime of the wavelength converting material may be prolonged.
    • 本发明提供了一种发光装置(100,200,300),包括:适于发射第一波长的光的光源(101,201,301); 波长转换构件(106,206,306),其包括适于接收所述第一波长的光的波长转换材料并将所接收的光的至少一部分转换成第二波长的光; 至少部分地围绕所述波长转换构件以形成包含至少所述波长转换构件的密封空腔(105,205,305)的密封结构(103),所述空腔包含受控气氛; 以及布置在所述密封空腔内的吸气剂材料(108,208,308),其中所述吸气剂材料适于在水的存在下操作和/或产生作为反应产物的水。 这种吸气剂材料具有从密封空腔内的大气中除去氧气的高容量,使得能够在空腔内保持低氧浓度。 因此,可以延长波长转换材料的寿命。
    • 7. 发明申请
    • LIGHTING APPARATUS FOR GENERATING A LIGHT PATTERN
    • 用于产生光图案的照明装置
    • US20120169952A1
    • 2012-07-05
    • US13497258
    • 2010-09-09
    • Rifat Ata Mustafa HikmetTies Van BommelYongfeng Ni
    • Rifat Ata Mustafa HikmetTies Van BommelYongfeng Ni
    • G02F1/1335
    • G02F1/1393A47F11/10G02F1/292
    • The invention relates to a lighting apparatus (1) for generating a light pattern. A light source (4) generates a light beam (5) for being directed onto a liquid crystal cell (2). The liquid crystal cell (2) comprises a periodic structure (3). If voltage is applied to the liquid crystal cell (2) by a voltage source (8), a period phase pattern is generated. The liquid crystal cell (2) and the light source (4) are adapted such that multiple separate light beams (6) are generated in different directions by diffraction at the generated periodic phase pattern, wherein the multiple separate light beams (6) form the light pattern (7). Since the light pattern is generated by diffraction at the periodic phase pattern, which is modifiable by applying voltage, different light patterns can be generated, in particular, for decorative purposes, in a technically relatively simple way.
    • 本发明涉及一种用于产生光图案的照明装置(1)。 光源(4)产生用于被引导到液晶单元(2)上的光束(5)。 液晶单元(2)包括周期性结构(3)。 如果通过电压源(8)向液晶单元(2)施加电压,则产生周期相位图。 液晶单元(2)和光源(4)适于使得通过在所产生的周期性相位图案处的衍射在不同方向上产生多个分开的光束(6),其中多个分开的光束(6)形成 光图案(7)。 由于光图案是通过施加电压可修改的周期性相位图案的衍射产生的,特别是为了装饰目的,可以以技术上相对简单的方式产生不同的光图案。