Thermal Precursor Approach to Pristine Fullerene Film as Electron Selective Layer in Perovskite Solar Cells

Abstract: In perovskite solar cells (PSCs), electron selective layers (ESLs) assume a crucial role in blocking holes and transporting electrons for high performances. To achieve low-temperature solution processing of PSCs, organic n-type materials such as fullerene-based molecules have recently been employed to replace a typical TiO 2 ESL that requires high temperature (>450 • C) for fabrication. Herein, soluble C 60 -9-methylanthracene mono-adduct (C 60 (9MA)) is used as a thermal precursor to the C 60 ESL in planar PS… Show more

“…36,37 Different fullerene derivatives such as cis-a-dimethoxy carbonyl fulleropyrrolidine C 70 (DMEC 70 ), cross-linked silanemodified fullerene, and doped fullerene have been used as ESLs in p-i-n planar heterojunction structure 28,52,53 and later in the n-i-p architecture. 54 Umeyama et al 55 reported for the first time the use of C 60 thin films as the ESL in regular n-i-p PSCs, after thermal retro-Diels-Alder reaction on as-prepared glass/FTO/C 60 -9-methylanthracene. Fullerene ESLs have also been doped with various materials such as decamethylcobaltocene, 56 oleamide, 29 carbon, and novel two-dimensional carbon materials such as graphdiyne 57 for application in PSCs.…”

The role of carbon-based materials in enhancing the stability of perovskite solar cells

“…36,37 Different fullerene derivatives such as cis-a-dimethoxy carbonyl fulleropyrrolidine C 70 (DMEC 70 ), cross-linked silanemodified fullerene, and doped fullerene have been used as ESLs in p-i-n planar heterojunction structure 28,52,53 and later in the n-i-p architecture. 54 Umeyama et al 55 reported for the first time the use of C 60 thin films as the ESL in regular n-i-p PSCs, after thermal retro-Diels-Alder reaction on as-prepared glass/FTO/C 60 -9-methylanthracene. Fullerene ESLs have also been doped with various materials such as decamethylcobaltocene, 56 oleamide, 29 carbon, and novel two-dimensional carbon materials such as graphdiyne 57 for application in PSCs.…”

The role of carbon-based materials in enhancing the stability of perovskite solar cells

“…Compared to the PSCs without the He DBDjet treatment, the PSCs with the He DBDjet treatment exhibited smaller hysteresis, defined as (PCE (forward scan)-PCE (reverse scan))/PCE (forward scan), as shown in Figure S1 [4,52,53]. Many parameters influence the J-V hysteresis behavior of the PSCs, such as the voltage range, scan direction, scan rate, architecture, and precondition of PSCs [54][55][56][57][58][59][60][61][62][63]. In this case, without the He DBDjet treatment on the BCP layer, the unbalanced electron and hole transport rates as well as interface defects may cause photocurrent hysteresis [4,52,53].…”

The Influence of Helium Dielectric Barrier Discharge Jet (DBDjet) Plasma Treatment on Bathocuproine (BCP) in p-i-n-Structure Perovskite Solar Cells

Fullerenes and their applications