Efficient tandem solar cells with solution-processed perovskite on textured crystalline silicon

Yi Hou; Erkan Aydın; Michele De Bastiani; Chuanxiao Xiao; Furkan H. Isikgor; Ding‐Jiang Xue; Bin Chen; Hao Chen; Behzad Bahrami; Ashraful Haider Chowdhury; Andrew Johnston; Se‐Woong Baek; Ziru Huang; Mingyang Wei; Yitong Dong; Joel Troughton; Rawan Jalmood; Alessandro J. Mirabelli; Thomas G. Allen; Emmanuel Van Kerschaver; Makhsud I. Saidaminov; Derya Baran; Qiquan Qiao; Kai Zhu; Stefaan De Wolf; Edward H. Sargent

doi:10.1126/science.aaz3691

Efficient tandem solar cells with solution-processed perovskite on textured crystalline silicon

Yi Hou(University of Toronto), Erkan Aydın(King Abdullah University of Science and Technology), Michele De Bastiani(King Abdullah University of Science and Technology), Chuanxiao Xiao(National Laboratory of the Rockies), Furkan H. Isikgor(King Abdullah University of Science and Technology), Ding‐Jiang Xue(University of Toronto), Bin Chen(University of Toronto), Hao Chen(University of Toronto), Behzad Bahrami(South Dakota State University), Ashraful Haider Chowdhury(South Dakota State University), Andrew Johnston(University of Toronto), Se‐Woong Baek(University of Toronto), Ziru Huang(University of Toronto), Mingyang Wei(University of Toronto), Yitong Dong(University of Toronto), Joel Troughton(King Abdullah University of Science and Technology), Rawan Jalmood(King Abdullah University of Science and Technology), Alessandro J. Mirabelli(King Abdullah University of Science and Technology), Thomas G. Allen(King Abdullah University of Science and Technology), Emmanuel Van Kerschaver(King Abdullah University of Science and Technology), Makhsud I. Saidaminov(University of Toronto), Derya Baran(King Abdullah University of Science and Technology), Qiquan Qiao(South Dakota State University), Kai Zhu(National Laboratory of the Rockies), Stefaan De Wolf(King Abdullah University of Science and Technology), Edward H. Sargent(University of Toronto)

Science

March 6, 2020

10.1126/science.aaz3691

Cited by 769Open Access

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Abstract

Stacking solar cells with decreasing band gaps to form tandems presents the possibility of overcoming the single-junction Shockley-Queisser limit in photovoltaics. The rapid development of solution-processed perovskites has brought perovskite single-junction efficiencies >20%. However, this process has yet to enable monolithic integration with industry-relevant textured crystalline silicon solar cells. We report tandems that combine solution-processed micrometer-thick perovskite top cells with fully textured silicon heterojunction bottom cells. To overcome the charge-collection challenges in micrometer-thick perovskites, we enhanced threefold the depletion width at the bases of silicon pyramids. Moreover, by anchoring a self-limiting passivant (1-butanethiol) on the perovskite surfaces, we enhanced the diffusion length and further suppressed phase segregation. These combined enhancements enabled an independently certified power conversion efficiency of 25.7% for perovskite-silicon tandem solar cells. These devices exhibited negligible performance loss after a 400-hour thermal stability test at 85°C and also after 400 hours under maximum power point tracking at 40°C.

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