Process‐Aid Solid Engineering Triggers Delicately Modulation of Y‐Series Non‐Fullerene Acceptor for Efficient Organic Solar Cells

Abstract: considered as one of the most promising green-energy technologies. [1][2][3][4] From the past several years, with the advents of start-of-the-art Y-series non-fullerene acceptors (NFAs) (Y6, Y6-BO, BTIC-2Cl-γCF 3 , BTP-eC9, L8-BO, and so on) in terms of novel electron-deficient core, dithienothiophen[3.2-b]pyrrolobenzothiadiazole, BTP, [5][6][7][8][9][10] the recording power conversion efficiencies (PCEs) have exceeded 19% in single-junction configuration and over 20% certified PCE based on tandem solar cells … Show more

“…[11][12][13][14] It has been already reported that the use of non fullerene based semiconducting materials in photovoltaics have increased the PCE up to 18.5%. 12,15,16 Among these, small-molecule acceptors with the acceptor-donoracceptor (A-D-A) backbone architecture, similar to the widely used and rather successful small-molecule donors, have drawn interest due to their easily tunable energy levels and high device performances. Besides, conjugated small molecules have attracted much attention due to their well dened structures and hence less batch to batch variation, easy synthetic control, high mobility and open circuit voltage, high purity, versatile chemical structures and easy energy level control.…”

Theoretical investigation of fused N-methyl-dithieno-pyrrole derivatives in the context of acceptor–donor–acceptor approach

“…[11][12][13][14] It has been already reported that the use of non fullerene based semiconducting materials in photovoltaics have increased the PCE up to 18.5%. 12,15,16 Among these, small-molecule acceptors with the acceptor-donoracceptor (A-D-A) backbone architecture, similar to the widely used and rather successful small-molecule donors, have drawn interest due to their easily tunable energy levels and high device performances. Besides, conjugated small molecules have attracted much attention due to their well dened structures and hence less batch to batch variation, easy synthetic control, high mobility and open circuit voltage, high purity, versatile chemical structures and easy energy level control.…”

Theoretical investigation of fused N-methyl-dithieno-pyrrole derivatives in the context of acceptor–donor–acceptor approach

“…Organic solar cells (OSCs) have received extensive attention as one of the most promising photovaltiac technologies because of their potential for solution-processed large-area production, flexible and stretchable devices, and semitransparent photovoltaic applications. − The power conversion efficiencies (PCEs) of typical solution-processed bulk heterojunction OSCs have reached over 18% in many systems, which is greatly attributed to the design and synthesis of high-performance nonfullerene small molecular acceptors (SMAs) − and paired electronic donors, − deeper understandings of the charge dynamics, − morphological control, , and device engineering. − Currently, most of the high-efficiency SMA materials are fused-ring electron acceptors (FREAs), such as Y-series SMAs − and ITIC families, − which typically consist of a large ladder-type fused multiring core with bulky side chains and two strong electron-withdrawing end-capped units. The fused-ring core could enhance the light absorption and charge carrier mobilities of FREA because of its π-extended conjugation length and rigid coplanar structures.…”

Isomerization of Noncovalently Conformational Lock in Nonfused Electron Acceptor toward Efficient Organic Solar Cells

“…S1 in the ESI †), [17][18][19][20] and the power conversion efficiencies (PCEs) of the state-of-the-art devices have surpassed 19%. 21 Comprehensive studies, including those on steady state current-voltage, 17,18,[22][23][24] spectroscopic, [25][26][27] and morphological analyses [28][29][30][31][32][33] have revealed that the utilization of a rigid p-conjugated framework and the suppression of face-to-face intermolecular arrangement are advantageous for photoinduced charge generation and isotropic charge transport. However, the utilization of such fused-ring structures has faced difficulties in scale-up synthesis and structural tunability.…”

Effects of the rigid and sterically bulky structure of non-fused nonfullerene acceptors on transient photon-to-current dynamics