Modeling and Implementation of Tandem Polymer Solar Cells Using Wide-Band Gap Front Cells,Carbon Energy

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Modeling and Implementation of Tandem Polymer Solar Cells Using Wide-Band Gap Front Cells
Carbon Energy ( IF 20.5 ) Pub Date : 2019-11-06 , DOI: 10.1002/cey2.20
Seo‐Jin Ko ₁ , Hyosung Choi ₂ , Quoc Viet Hoang _{1,

3} , Chang Eun Song ₁ , Pierre‐Olivier Morin ₄ , Jungwoo Heo ₅ , Mario Leclerc ₄ , Sung Cheol Yoon ₁ , Han Young Woo ₆ , Won Suk Shin ₁ , Bright Walker ₇ , Jin Young Kim ₅

Affiliation

Transfer matrix modeling is used, with consideration of the influence of front cell and back cell bandgaps, to rationally design and optimize effective tandem solar cell structures before actual device fabrication. Using transfer matrix simulations to aid in material selection and expedite the optimization of tandem architectures, power conversion efficiencies of up to 12.8% could be achieved with minimal consumption of valuable photoactive materials.

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