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    • 2. 发明授权
    • Interfacial architecture for nanostructured optoelectronic devices
    • 纳米结构光电子器件的界面结构
    • US08178384B1
    • 2012-05-15
    • US12401238
    • 2009-03-10
    • Martin R. RoscheisenBrian M. SagerKlaus PetritschJacqueline Fidanza
    • Martin R. RoscheisenBrian M. SagerKlaus PetritschJacqueline Fidanza
    • H01L21/00
    • B82Y10/00H01L51/0014H01L51/0047H01L51/424H01L51/447Y02E10/549Y02P70/521
    • An optoelectronic apparatus, a method for making the apparatus, and the use of the apparatus in an optoelectronic device are disclosed. The apparatus may include an active layer having a nanostructured network layer with a network of regularly spaced structures with spaces between neighboring structures. One or more network-filling materials are disposed in the spaces. At least one of the network-filling materials has complementary charge transfer properties with respect to the nanostructured network layer. An interfacial layer, configured to enhance an efficiency of the active layer, is disposed between the nanostructured network layer and the network-filling materials. The interfacial layer may be configured to provide (a) charge transfer between the two materials that exhibits different rates for forward versus backward transport; (b) differential light absorption to extend a range of wavelengths that the active layer can absorb; or (c) enhanced light absorption, which may be coupled with charge injection.
    • 公开了一种光电子装置,制造该装置的方法和该装置在光电装置中的应用。 该装置可以包括具有纳米结构网络层的有源层,其具有在相邻结构之间具有间隔的规则间隔结构的网络。 一个或多个网络填充材料设置在空间中。 至少一种网络填充材料相对于纳米结构化网络层具有互补电荷转移性质。 被配置为提高有源层的效率的界面层设置在纳米结构网络层和网络填充材料之间。 界面层可以被配置为提供(a)两种材料之间的电荷转移,这些材料对于正向和反向传输具有不同的速率; (b)差分光吸收以延长有源层可以吸收的波长范围; 或(c)增强的光吸收,其可与电荷注入相结合。
    • 3. 发明授权
    • Inter facial architecture for nanostructured optoelectronic devices
    • 纳米结构光电子器件的面部构造
    • US07511217B1
    • 2009-03-31
    • US10419708
    • 2003-04-19
    • Martin R. RoscheisenBrian M. SagerKlaus PetritschJacqueline Fidanza
    • Martin R. RoscheisenBrian M. SagerKlaus PetritschJacqueline Fidanza
    • H01L31/00
    • B82Y10/00H01L51/0014H01L51/0047H01L51/424H01L51/447Y02E10/549Y02P70/521
    • An optoelectronic apparatus, a method for making the apparatus, and the use of the apparatus in an optoelectronic device are disclosed. The apparatus may include an active layer having a nanostructured network layer with a network of regularly spaced structures with spaces between neighboring structures. One or more network-filling materials are disposed in the spaces. At least one of the network-filling materials has complementary charge transfer properties with respect to the nanostructured network layer. An interfacial layer, configured to enhance an efficiency of the active layer, is disposed between the nanostructured network layer and the network-filling materials. The interfacial layer may be configured to provide (a) charge transfer between the two materials that exhibits different rates for forward versus backward transport; (b) differential light absorption to extend a range of wavelengths that the active layer can absorb; or (c) enhanced light absorption, which may be coupled with charge injection.
    • 公开了一种光电子装置,制造该装置的方法和该装置在光电装置中的应用。 该装置可以包括具有纳米结构网络层的有源层,其具有在相邻结构之间具有间隔的规则间隔结构的网络。 一个或多个网络填充材料设置在空间中。 至少一种网络填充材料相对于纳米结构化网络层具有互补电荷转移性质。 被配置为提高有源层的效率的界面层设置在纳米结构网络层和网络填充材料之间。 界面层可以被配置为提供(a)两种材料之间的电荷转移,这些材料对于正向和反向传输具有不同的速率; (b)差分光吸收以延长有源层可以吸收的波长范围; 或(c)增强的光吸收,其可与电荷注入相结合。