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Journal articles on the topic 'O-IDTBR'

Author: Grafiati
Published: 2 November 2024
Last updated: 31 July 2025

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1

Badgujar, Sachin, Chang Eun Song, Sora Oh, et al. "Highly efficient and thermally stable fullerene-free organic solar cells based on a small molecule donor and acceptor." Journal of Materials Chemistry A 4, no. 42 (2016): 16335–40. http://dx.doi.org/10.1039/c6ta06367e.

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2

Huang, Yulin, Wenfa Zhou, Xiaofang Li, Li Jiang, and Yinglin Song. "Highly broadband NLO response of acceptor–donor–acceptor materials with a planar conformation." Materials Advances 2, no. 6 (2021): 2097–103. http://dx.doi.org/10.1039/d0ma00918k.

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The third-order NLO properties of A–D–A molecules originally derived from organic photovoltaic (OPV) devices are studied. The results show that NLO performance of planar molecule (O-IDTBR) is better than that of twisted molecule (IDFBR) in solution or film state.
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3

Paterson, Alexandra F., Ruipeng Li, Anastasia Markina, et al. "N-Doping improves charge transport and morphology in the organic non-fullerene acceptor O-IDTBR." Journal of Materials Chemistry C 9, no. 13 (2021): 4486–95. http://dx.doi.org/10.1039/d0tc05861k.

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4

Liu, Jiangang, Shuyi Zeng, Peng Jing, Kui Zhao, and Qiuju Liang. "Investigating the effect of cosolvents on P3HT/O-IDTBR film-forming kinetics and film morphology." Journal of Energy Chemistry 51 (December 2020): 333–41. http://dx.doi.org/10.1016/j.jechem.2020.04.048.

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5

Liang, Qiuju, Xuechen Jiao, Ye Yan, et al. "Separating Crystallization Process of P3HT and O‐IDTBR to Construct Highly Crystalline Interpenetrating Network with Optimized Vertical Phase Separation." Advanced Functional Materials 29, no. 47 (2019): 1807591. http://dx.doi.org/10.1002/adfm.201807591.

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6

Arshad, Muhammad Nadeem, Muhammad Khalid, Mohammad Asad, Ataualpa A. C. Braga, Abdullah M. Asiri, and Maha M. Alotaibi. "Influence of Peripheral Modification of Electron Acceptors in Nonfullerene (O-IDTBR1)-Based Derivatives on Nonlinear Optical Response: DFT/TDDFT Study." ACS Omega 7, no. 14 (2022): 11631–42. http://dx.doi.org/10.1021/acsomega.1c06320.

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7

Liu, Yadi, Tao Zhang, Rui Zhang, et al. "Enhancing the Molecular Order and Vertical Component Distribution of the P3HT/O‐IDTBR System during Layer‐by‐Layer Processing." Macromolecular Rapid Communications, August 21, 2023. http://dx.doi.org/10.1002/marc.202300338.

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AbstractThe molecular order and vertical component distribution are critical to enhance the charge transport in layer‐by‐layer (LbL) processed active layer. However, the excessive inter‐diffusion between donor and acceptor layers during LbL processing irrepressibly reduces their ordered packing. Herein, a novel tactic to optimize the molecular order and vertical morphology of the active layer through suppressing the deep penetration of (5Z,5′Z)‐5,5′‐((7,7′‐(4,4,9,9‐tetraoctyl‐4,9‐dihydro‐s‐indaceno[1,2‐b:5,6 ‐b′]dithiophene‐2,7‐diyl)bis(benzo[c][1,2,5]thiadiazole‐7,4‐diyl))bis(methanylylidene)
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8

Liu, Yadi, Qiang Zhang, Jian Guan, et al. "Improving the Molecular Packing Order and Vertical Phase Separation of the P3HT:O-IDTBR Blend by Extending the Crystallization Period of O-IDTBR." ACS Applied Materials & Interfaces, September 26, 2022. http://dx.doi.org/10.1021/acsami.2c12220.

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9

Stojanovic, Ljiljana, Samuele Giannini, and Jochen Blumberger. "Exciton Transport in the Nonfullerene Acceptor O-IDTBR from Nonadiabatic Molecular Dynamics." Journal of Chemical Theory and Computation, July 5, 2024. http://dx.doi.org/10.1021/acs.jctc.4c00605.

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10

van der Vlies, André J., Stephen Wong, Hemant P. Yennawar, Burcu Dursun, and Enrique D. Gomez. "Synthesis of Fluorinated O-IDTBR Acceptors for Organic Solar Cells." Industrial & Engineering Chemistry Research, February 12, 2025. https://doi.org/10.1021/acs.iecr.5c00271.

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11

López-Vicente, R., M. Fernández-Castro, J. Abad, et al. "Lifetime Study of Organic Solar Cells with O-IDTBR as Non-Fullerene Acceptor." Frontiers in Energy Research 9 (October 19, 2021). http://dx.doi.org/10.3389/fenrg.2021.741288.

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Organic solar cells (OSCs) have increased their power conversion efficiency above 18% thanks to the use of non-fullerene acceptors in binary or ternary blends or in tandem configurations. In this article, a study on the lifetime of P3HT:O-IDTBR bulk heterojunction OSCs on ITO-free flexible substrates is presented. A direct comparison of glass–glass and plastic–plastic encapsulation performance, with a special focus on its effect on the lifetime of the devices after degradation procedures, has been carried out complying with the ISOS protocols for organic photovoltaic devices. The manufactured
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12

Schopp, Nora, Ernazar Abdikamalov, Andrii I. Mostovyi, et al. "Interstellar photovoltaics." Scientific Reports 13, no. 1 (2023). http://dx.doi.org/10.1038/s41598-023-43224-5.

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AbstractThe term 'Solar Cell’ is commonly used for Photovoltaics that convert light into electrical energy. However, light can be harvested from various sources not limited to the Sun. This work considers the possibility of harvesting photons from different star types, including our closest neighbor star Proxima Centauri. The theoretical efficiency limits of single junction photovoltaic devices are calculated for different star types at a normalized light intensity corresponding to the AM0 spectrum intensity with AM0 = 1361 W/m2. An optimal bandgap of > 12 eV for the hottest O5V star type l
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13

Bashiri, Aishah, Matthew J. Large, Matthew J. Griffith, et al. "Flexible Organic X‐Ray Sensors: Solving the Key Constraints of PET Substrates." Advanced Functional Materials, November 21, 2024. http://dx.doi.org/10.1002/adfm.202415723.

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AbstractOrganic semiconductor‐based sensors are a unique class of wearable x‐ray detectors, as the response from their carbon‐based composition can mimic the response of the human body to radiation. A thin (260 nm) flexible P3HT: o‐IDTBR‐based organic sensor, deposited onto a conductive Kapton substrate is demonstrated, can provide precise and artifact‐free dosimetry under synchrotron x‐rays with sensitivities of (1958 ± 31)pCGy−1cm−2 without bias. The sensor is capable of accurately resolving multiple 50 µm‐wide x‐rays with a full‐width‐half‐max of (51.6 ± 1.9)µm for a range of energies (47–8
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14

Yu, Guanxiong, Jie Ren, Shuo Yan, Wentao Yuan, and Hanying Li. "Long‐Range Ordered Organic Bulk‐Heterojunction: C 60 and O‐IDTBR Single Crystals Penetrated by Crystalline P3HT Fibrous Networks." Small, May 12, 2023. http://dx.doi.org/10.1002/smll.202302046.

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15

Yeung, Celine Wing See, Virgil Andrei, Tack Ho Lee, James Robert Durrant, and Erwin Reisner. "Organic Semiconductor‐BiVO4 Tandem Devices for Solar‐Driven H2O and CO2 Splitting." Advanced Materials, June 29, 2024. http://dx.doi.org/10.1002/adma.202404110.

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AbstractPhotoelectrochemical (PEC) devices offer a promising platform towards direct solar light harvesting and chemical storage. However, most prototypes employ wide bandgap semiconductors, moisture‐sensitive inorganic light absorbers, or corrosive electrolytes. Here, we introduce the design and assembly of PEC devices based on an organic donor‐acceptor bulk heterojunction (BHJ), which demonstrate long‐term H2 evolution and CO2 reduction in benign aqueous media using a carbon‐based encapsulant. Accordingly, PCE10:EH‐IDTBR photocathodes display long‐term H2 production for 300 h in a near‐neutr
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16

Wan, Li, Rui Zhang, Eunkyung Cho, et al. "Sensitive near-infrared circularly polarized light detection via non-fullerene acceptor blends." Nature Photonics, June 8, 2023. http://dx.doi.org/10.1038/s41566-023-01230-z.

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AbstractCircularly polarized light (CPL) is widely used for various applications in sensing and imaging1–3. An ongoing challenge is to realize high-quality CPL detection using chiral organic semiconductors, especially in the near-infrared (NIR) region4. Chiral molecules tend to rely on twisted stereogenic moieties; however, conventional approaches to reduce the bandgap of organic semiconductors are based on the use of co-planar backbones that commonly lead to molecular symmetries preventing chirality. Here we report a widely applicable strategy to directly induce chiroptical activity in planar
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