Issue 18, 2020

A cost-device efficiency balanced spiro based hole transport material for perovskite solar cells

Abstract

Although spiro-MeOTAD 1 is a superior hole-transporting material (HTM) commonly employed in perovskite solar cells (PSC), its high cost is one of the major issues holding back commercialization, which has not been resolved to-date. In this article we introduce a new HTM comprising a cyclic spiro-backbone appended with four diphenylimidazole substituents, namely spiro-omethoxyimidazole, or spiro-OMeIm 2. When compared to the benchmark 1, introduction of the imidazole functionality into this versatile platform decreases the first oxidation potential from 0.6 V to 0.53 V, which approaches the energy of the HOMO of the perovskite light absorber. Studies on PSC devices fabricated from 2 reveal that the values of the short-circuit current (Jsc) and open-circuit voltage (Voc) are very similar to 1 and its power efficiency is 11.64 vs. 14.46% recorded for spiro-OMeTAD under the same conditions. Nevertheless, the commercial cost of synthesizing OMeIm is approximately 80% less than the synthetic precursors to the best spiro-OMeTAD derivatives reported to-date, which makes spiro-OMeIm less expensive to produce and therefore a very attractive HTM for the future development of low-cost PSCs.

Graphical abstract: A cost-device efficiency balanced spiro based hole transport material for perovskite solar cells

Supplementary files

Article information

Article type
Paper
Submitted
12 jan. 2020
Accepted
27 mar. 2020
First published
30 mar. 2020

J. Mater. Chem. C, 2020,8, 6221-6227

A cost-device efficiency balanced spiro based hole transport material for perovskite solar cells

L. Hajikhanmirzaei, H. Shahroosvand, B. Pashaei, G. D. Monache, M. K. Nazeeruddin and M. Pilkington, J. Mater. Chem. C, 2020, 8, 6221 DOI: 10.1039/D0TC00196A

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