Highly Efficient Nonfullerene Acceptor with Sulfonyl-Based Ending Groups

Abstract: Ending groups play a vital role in regulating the band gap and energy level of low-band gap nonfullerene acceptors (NFAs). In this work, a novel NFA, BTP-IS, is synthesized by adopting sulfonyl-based ending groups. Compared to the ketone counterpart BTP-IC, BTP-IS exhibits a red-shift in absorption spectra with lower lowest unoccupied molecular orbital level. More importantly, the BTP−IS-based organic solar cells with PM6 as donor present a high power conversion efficiency (PCE) of 12.79%, which is much higher… Show more

“…The increase of electron mobility may weaken the excessive accumulation of carriers, which will help in reducing the charge recombination, thereby increasing J SC and FF. 58,60…”

A novel naphthalene diimide-based conjugated polymer as an electron transport material for non-fullerene organic solar cells

“…The increase of electron mobility may weaken the excessive accumulation of carriers, which will help in reducing the charge recombination, thereby increasing J SC and FF. 58,60…”

A novel naphthalene diimide-based conjugated polymer as an electron transport material for non-fullerene organic solar cells

“…Exchanging the carbonyl unit at the INCN end groups of 7-144 with a sulfone group leads to 7-196 (BTP-IS). 210 In comparison, the sulfone lowers both energy levels and gives a slightly lower band gap than 7-144. Combined with PM6, the 7-196-based device shows lower V OC but higher J SC , FF, and PCE values, enhancing the efficiency from 7.…”

“…54 reason therefore can be the much higher electron mobility in the blend film of 7-196 compared to 7-144, as well as the more effective exciton dissociation and charge collection. 210 The exchange of the benzene unit of the INCN group with a [c]-thiophene ring leads to the structures 7-197 (Y10) 243 ). This study shows that asymmetric end group engineering may be an efficient way for enhancing the PCE.…”

“…However, P3HT/ 7-195 -based devices possess a similar V OC as solar cells with PM6/ 7-160 absorber layers, but all other parameters are much lower with an efficiency of 9.46%. Exchanging the carbonyl unit at the INCN end groups of 7-144 with a sulfone group leads to 7-196 (BTP-IS) . In comparison, the sulfone lowers both energy levels and gives a slightly lower band gap than 7-144 .…”

“…Combined with PM6, the 7-196 -based device shows lower V OC but higher J SC , FF, and PCE values, enhancing the efficiency from 7.54 to 12.8%. A reason therefore can be the much higher electron mobility in the blend film of 7-196 compared to 7-144 , as well as the more effective exciton dissociation and charge collection . The exchange of the benzene unit of the INCN group with a [ c ]-thiophene ring leads to the structures 7-197 (Y10) and 7-198 (BTCT-2Cl) with the latter having the same undecyl and ethylhexyl side chains as in 7-143 and 7-198 having additional chlorines on the acceptor units.…”

Recent Progress in the Design of Fused-Ring Non-Fullerene Acceptors─Relations between Molecular Structure and Optical, Electronic, and Photovoltaic Properties

Lowly Fused Non-Fullerene Acceptors Towards Efficient Organic Solar Cells Enabled by Isomerization