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    • 3. 发明申请
    • MULTIJUNCTION HYBRID SOLAR CELL WITH PARALLEL CONNECTION AND NANOMATERIAL CHARGE COLLECTING INTERLAYERS
    • 具有平行连接和纳米材料电荷收集夹层的多结合混合太阳能电池
    • WO2012106002A8
    • 2012-11-01
    • PCT/US2011039518
    • 2011-06-07
    • UNIV TEXASSOLARNO INCZAKHIDOV ANVAR AMIELCZAREK KAMILPAPADIMITRATOS ALEXIOS
    • ZAKHIDOV ANVAR AMIELCZAREK KAMILPAPADIMITRATOS ALEXIOS
    • H01L31/00
    • H01L31/06H01L27/302H01L31/043H01L31/1884H01L51/0036H01L51/0086H01L51/4226H01L51/4253H01L51/444Y02E10/542Y02E10/549Y02P70/521
    • A tandem (or multijunction) hybrid photovoltaic device (PV) device comprised of multiple stacked single PVs connected in parallel with each other is described herein. Furthermore, nanomaterials are used as transparent charge collecting electrodes that allow both parallel connection via anode interlayer and also "inverted parallel" connection via cathode type interlayer of different types of solar cells. Carbon nanotube sheets are used as a convenient example for the charge collecting electrodes. The development of these alternative interconnecting layers simplifies the process and may be also used for combined organic PVs with traditional inorganic PVs and Dye Sensitized Solar Cells (DSSC). In addition, novel architectures are enabled that allow the parallel connection of the stacked PVs into monolithic multi-junction PV tandems. This new monolithic parallel connection architecture enables enhanced absorption of the solar spectrum and results in increased power conversions efficiency. Moreover, architectures where cells are stacked monolithically using a series connection can be coupled with cells to create mixed series and parallel connected tandem cells.
    • 本文描述了由彼此并联连接的多个堆叠的单个PV组成的串联(或多结)混合光伏装置(PV)装置。 此外,纳米材料被用作透明电荷收集电极,其允许经由阳极夹层的并联连接以及经由不同类型的太阳能电池的阴极型夹层的“反向并联”连接。 碳纳米管片被用作电荷收集电极的便利例子。 这些替代互连层的发展简化了工艺过程,也可用于与传统无机PV和染料敏化太阳能电池(DSSC)组合的有机光伏组件。 此外,新型架构可实现堆叠光伏并行连接成单片多结光伏串联。 这种新型单片并联连接结构能够增强太阳光谱的吸收能力,并提高功率转换效率。 此外,使用串联连接将单元堆叠在一起的架构可以与单元耦合以创建混合串联和并联连接的串联单元。