Donor−acceptor conjugated polymers containing isoindigo block for novel multifunctional materials for electrochromic, resistance memory, and detector devices

Lu, Qingyi; Zhang, Xu; Cai, Wenfang; Wang, Yan; Yang, Caiyu; Chen, Ye; Zhang, Wei; Zhang, Zhipeng; Niu, Haijun; Wang, Wen

doi:10.1016/j.solmat.2019.109979

Cited by 31 publications

(10 citation statements)

References 53 publications

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“…These polymers exhibit the property of low-charge transfer resistance. 146 P339-P342 exhibited strong PL emissions (yellow-green or white colors). The optical contrasts were 71%, 55%, 27%, and 76%, for P339, P340, P341, and P342, respectively.…”

Section: Isoindigo-derived Polymers For Fabrication Of Other Type Electronic Devicesmentioning

confidence: 99%

Recent progress in lactam‐based polymer semiconductors for organic electronic devices

Park

Lim

et al. 2021

Journal of Polymer Science

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Numerous polymer semiconductor materials with alternating electron donorelectron acceptor (D-A) structures have attracted immense attention because they exhibit excellent semiconductor performance and solution processability. These materials can be used for the fabrication of various lightweight and flexible electronic devices. In this review, we provide a brief overview of the structural features and important properties of lactams whose performance can be enhanced by introducing an acceptor in the design of D-A-type polymer semiconductor materials. The focus is on polymer semiconductor materials with lactams in their structures, such as diketopyrrolo[3,4-c]pyrrole, naphthalene diimide, isoindigo, 2,2-bithiophene-3,3-dicarboximide, and thieno[3,4-c]pyrrole-4,6-dione. The recent advances made in the field in the last 3 years are discussed. In addition, the application of polymers for the fabrication of organic electronic devices and the progress in the field are discussed.

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Section: Isoindigo-derived Polymers For Fabrication Of Other Type Electronic Devicesmentioning

confidence: 99%

Recent progress in lactam‐based polymer semiconductors for organic electronic devices

Park

Lim

et al. 2021

Journal of Polymer Science

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“…The limit of sensitivity of the sensor for nitrogen dioxide was 60 ppm and for glucose 0.026 mM. For the example of the fairly simple arylamine series 63, the possibility of using isoindigo polymer for the detection of explosives (trinitrophenol and trinitrotoluene) in solution was demonstrated (Scheme 30) [110,111].…”

Section: Isoindigo-based Sensor Devicesmentioning

confidence: 99%

Recent advances in the application of isoindigo derivatives in materials chemistry

Богданов¹,

Миронов²

2021

Beilstein J. Org. Chem.

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In this review, the data on the application of isoindigo derivatives in the chemistry of functional materials are analyzed and summarized. These bisheterocycles can be used in the creation of organic solar cells, sensors, lithium ion batteries as well as in OFET and OLED technologies. The potentials of the use of polymer structures based on isoindigo as photoactive component in the photoelectrochemical reduction of water, as matrix for MALDI spectrometry and in photothermal cancer therapy are also shown. Data published over the past 5 years, including works published at the beginning of 2021, are given.

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“…Conjugated push–pull polymers comprising alternating electron donor and electron acceptor blocks within the π ‐conjugated backbone formed a basis for the rapid development of state‐of‐the‐art organic electronics. [ 1–6 ] Among the various acceptor blocks, isoindigo is of great interest since it is a sustainable material, which can be extracted from plants. [ 7,8 ] Moreover, isoindigo‐based conjugated polymers (ICPs) provide outstanding electronic and optical properties including an extended absorption range up to 900 nm with high absorption coefficients and low energies of the highest occupied molecular orbital (HOMO), which in turn is crucial for improving the energy band level alignment in organic photovoltaics.…”

Section: Introductionmentioning

confidence: 99%

Impact of Synthetic Route on Photovoltaic Properties of Isoindigo‐Containing Conjugated Polymers

Tepliakova

Kuznetsov

Avilova

et al. 2021

Macro Chemistry & Physics

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Herein, the synthesis of a novel isoindigo‐based conjugated polymer using Suzuki and Stille polycondensation reactions is reported. It is shown that the polymer obtained using various reactions possesses different performance in photovoltaic devices. In particular, polymers synthesized using Suzuki and Stille polycondensation demonstrate 2.7% and 4.1% efficiency in organic solar cells, and 12.6% and 15.1% in perovskite solar cells, respectively. The observed difference in the performances of devices is attributed to the appearance of defects in the polymer obtained via Suzuki reaction. Using high‐performance liquid chromatography it is demonstrated that the origin of the polymer quality deterioration is the poor stability of isoindigo‐based monomer under conditions of Suzuki polycondensation. Revealing this aspect allows one to figure out a more effective approach for the synthesis of high‐quality isoindigo‐based polymers for organic electronics.

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Donor−acceptor conjugated polymers containing isoindigo block for novel multifunctional materials for electrochromic, resistance memory, and detector devices

Cited by 31 publications

References 53 publications

Recent progress in lactam‐based polymer semiconductors for organic electronic devices

Recent progress in lactam‐based polymer semiconductors for organic electronic devices

Recent advances in the application of isoindigo derivatives in materials chemistry

Impact of Synthetic Route on Photovoltaic Properties of Isoindigo‐Containing Conjugated Polymers

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