Understanding the Performance of Mechanically Stacked Tandem Solar Cells with Different Interconnection Architectures

Emily L. Warren; William E. McMahon; Paul Stradins; Kaitlyn VanSant; Michael Rienaecker; Robby Peibst; Adele C. Tamboli

doi:10.1364/PVLED.2019.PTh1C.1

OSA Advanced Photonics Congress (AP) 2019 (IPR, Networks, NOMA, SPPCom, PVLED)
OSA Technical Digest (Optica Publishing Group, 2019),
paper PTh1C.1
•https://doi.org/10.1364/PVLED.2019.PTh1C.1

Understanding the Performance of Mechanically Stacked Tandem Solar Cells with Different Interconnection Architectures

Emily L. Warren, William E. McMahon, Paul Stradins, Kaitlyn VanSant, Michael Rienaecker, Robby Peibst, and Adele C. Tamboli

Optical Devices and Materials for Solar Energy and Solid-state Lighting 2019

Burlingame, California United States
29 July–2 August 2019
ISBN: 978-1-943580-64-4

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III-V PV and Phosphors (PTh1C)

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E. L. Warren, W. E. McMahon, P. Stradins, K. VanSant, M. Rienaecker, R. Peibst, and A. C. Tamboli, "Understanding the Performance of Mechanically Stacked Tandem Solar Cells with Different Interconnection Architectures," in OSA Advanced Photonics Congress (AP) 2019 (IPR, Networks, NOMA, SPPCom, PVLED), OSA Technical Digest (Optica Publishing Group, 2019), paper PTh1C.1.

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Abstract

Three-terminal (3T), mechanically stacked tandem solar cells based on IBC Si subcells provide a compelling platform for tandem cell integration. This talk will discuss the design, operating principle, and interconnection options for 3T tandems.

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