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    • 3. 发明申请
    • SEALED THIN-FILM DEVICE, OLED AND SOLAR CELL
    • 密封薄膜器件,OLED和太阳能电池
    • WO2011086500A3
    • 2011-12-08
    • PCT/IB2011050113
    • 2011-01-11
    • KONINKL PHILIPS ELECTRONICS NVTNOBOUTEN PETRUS CORNELIS PAULUSVERSCHUREN COEN ADRIANUSLIFKA HERBERT
    • BOUTEN PETRUS CORNELIS PAULUSVERSCHUREN COEN ADRIANUSLIFKA HERBERT
    • H01L51/52H01L51/44
    • H01L51/5253H01L51/0097H01L51/448H01L51/5256H01L2227/326H01L2251/5338Y02E10/549
    • The invention relates to a sealed thin- film device (10) to an organic light emitting diode device (100) and to a solar cell device (200) comprising the sealed thin- film device. The sealed thin-film device comprises a thin-film device (20) and a barrier stack (30) for protecting the thin-film device from environmental influence. The barrier stack (30) comprises an inorganic barrier layer (34) in contact with at least one organic sealing layer (32) which comprises organic material comprising selected organic material selected to comprise a value of the Young's modulus (Eorg) remaining equal to or higher than 200 Mega- Pascal during a part of the processing of the sealed thin- film device during which the at least one organic sealing layer comprising the selected organic material has been applied. An effect of the sealed thin- film device according to the invention is that the use of the selected organic material reduces the crack occurrence and growth in the barrier stack which improves the sealing properties of the barrier stack and consequently improves the operational life-time of the thin- film device.
    • 本发明涉及有机发光二极管器件(100)的密封薄膜器件(10)以及包括该密封薄膜器件的太阳能电池器件(200)。 密封的薄膜器件包括用于保护薄膜器件免受环境影响的薄膜器件(20)和阻挡叠层(30)。 所述阻挡叠层(30)包括与至少一个有机密封层(32)接触的无机阻挡层(34),所述有机密封层(32)包含有机材料,所述有机材料包含选定的有机材料,所述有机材料选择为包括等于或小于 在密封的薄膜器件的处理过程的一部分期间高于200兆帕斯卡,在该密封的薄膜器件的处理期间已经施加了包含所选择的有机材料的至少一个有机密封层。 根据本发明的密封的薄膜器件的效果是使用所选择的有机材料减少了阻挡叠层中的裂纹发生和增长,这改善了阻挡叠层的密封性能并且因此提高了使用寿命 薄膜器件。
    • 4. 发明申请
    • A CARRIER FOR OPTICAL EXAMINATIONS WITH LIGHT REFLECTIONS
    • 光反射光学检查的承运人
    • WO2009013707A2
    • 2009-01-29
    • PCT/IB2008052939
    • 2008-07-22
    • KONINKL PHILIPS ELECTRONICS NVKAHLMAN JOSEPHUS ARNOLDUS HENRVERSCHUREN COEN ADRIANUS
    • KAHLMAN JOSEPHUS ARNOLDUS HENRVERSCHUREN COEN ADRIANUS
    • G01N21/45
    • G01N21/45B01L2300/0627G01N21/4788G01N21/552
    • The invention relates to a carrier (111) and a microelectronic sensor device for making optical examinations with the help of the reflection of an input light beam (L1). The contact surface (112) of the carrier (111) at which the reflection takes place comprises an optical phase structure, e.g. a pattern of pits (115) and lands (114), from which an input light beam (L1) is reflected as a plurality of output light beams (L2) with phase differences. In a preferred embodiment, the phase differences are adjusted such that the output light beams destructively interfere in zero-th order. For a clean contact surface, a minimal, ideally zero signal will therefore be measured in the output light beam. If target substances (1) are present at the contact surface (112), e.g. bound to binding sites (116) on the lands (114), this balance is disturbed by frustrated total internal reflection, and a corresponding non-zero signal can be detected.
    • 本发明涉及借助于输入光束(L1)的反射进行光学检查的载体(111)和微电子传感器装置。 发生反射的载体(111)的接触表面(112)包括光学相位结构,例如, 凹坑(115)和平台(114)的图案,输入光束(L1)从该图案反射为具有相位差的多个输出光束(L2)。 在优选实施例中,调整相位差使得输出光束以零级的方式相消干涉。 因此,对于干净的接触表面,因此在输出光束中将测量最小的理想零信号。 如果目标物质(1)存在于接触表面(112),例如 限制在陆地(114)上的结合位点(116),这种平衡受到沮丧的全内反射的干扰,并且可以检测相应的非零信号。