Improved performance of organic light-emitting diodes using advanced hole-transporting materials

“…The Supporting Information contains full synthetic details and characterization of the four new donor absorber materials; the synthesis and characterization of BF-DPB were previously reported. 26 We also include the single crystal structure data for BF-DPN and BF-DPA in section II of the Supporting Information. Charge carrier mobilities for BF-DPB, BF-DPN, and BF-DPA were comparable (∼10 −4 cm 2 /V-s) as estimated by space-charge limited current measurements shown in Figure S1.…”

“…The absorption spectra for the five donor molecules and B4PymPm are presented in Figure 2c. The trend in absorption 26 and studied in CT-OLEDs and solar cells. 19 onsets correlates with the size of the linker across the five donors; that is, the larger the linker, the smaller the optical gap.…”

Design of UV-Absorbing Donor Molecules for Nearly Imperceptible Organic Solar Cells

“…The Supporting Information contains full synthetic details and characterization of the four new donor absorber materials; the synthesis and characterization of BF-DPB were previously reported. 26 We also include the single crystal structure data for BF-DPN and BF-DPA in section II of the Supporting Information. Charge carrier mobilities for BF-DPB, BF-DPN, and BF-DPA were comparable (∼10 −4 cm 2 /V-s) as estimated by space-charge limited current measurements shown in Figure S1.…”

“…The absorption spectra for the five donor molecules and B4PymPm are presented in Figure 2c. The trend in absorption 26 and studied in CT-OLEDs and solar cells. 19 onsets correlates with the size of the linker across the five donors; that is, the larger the linker, the smaller the optical gap.…”

Design of UV-Absorbing Donor Molecules for Nearly Imperceptible Organic Solar Cells

“…48 Hwang et al have replaced the πlinker of biphenyl with phenylnaphthyl to produce a diarylamine functionalized HTM, displaying an increased T g from 121 to 159 °C. 50 Tang and co-workers have shown that the π-linker alteration from biphenyl to tetraphenylethene in diarylamine-based HTMs can increase T g by 51 °C. 53 However, the resultant high T g molecular semiconductors have to be processed into thin films by vacuum deposition, owing to low solubility.…”

“…Apart from the structural factors such as the rigidity of the conjugated unit ,− and the length of substituting group, − the π-extension ,,− has already been identified as an effective method to boost the T g s of traditional molecular semiconductors. For instance, Shirota et al have used thiophene, dithiophene, trithiophene, and tetrathiophene as π-linkers to synthesize four HTMs, showing gradually increased T g s up to 98 °C .…”

“…For instance, Shirota et al have used thiophene, dithiophene, trithiophene, and tetrathiophene as π-linkers to synthesize four HTMs, showing gradually increased T g s up to 98 °C . Hwang et al have replaced the π-linker of biphenyl with phenylnaphthyl to produce a diarylamine functionalized HTM, displaying an increased T g from 121 to 159 °C . Tang and co-workers have shown that the π-linker alteration from biphenyl to tetraphenylethene in diarylamine-based HTMs can increase T g by 51 °C .…”

A Pyrrole-Bridged Bis(oxa[5]helicene)-Based Molecular Semiconductor for Efficient and Durable Perovskite Solar Cells: Microscopic Insights

Solution-processable hole-transporting materials for organic light-emitting diodes