Designing a Length‐Modulated Azide Photocrosslinker to Improve the Stretchability of Semiconducting Polymers

Kim, Seung Hyun; Chung, Sein; Kim, Minkyu; Yoo, Dongho; Ok, Eunsol; Kim, Seunghyun; Song, Kyu Chan; Song, Young Jae; Kang, Boseok; Cho, Kilwon

doi:10.1002/adfm.202212127

Cited by 11 publications

(11 citation statements)

References 66 publications

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“…Additionally, molecular coupling between the donor and acceptor units results in a (0–0) peak at λ 0–0 = 680 nm in all absorption spectra. The absorption intensity of this peak is represented as I 0–0 (Figure d). , By comparing the normalized UV–vis absorption spectra, there is no shift of λ 0–1 or λ 0–0 . In addition, the relative absorption intensity ratio between 0 and 0 and 0–1 peaks ( I 0–0 / I 0–1 ) is a crucial parameter to evaluate the interchain aggregation of IDTBT chains (Figure e). , For the pristine film, I 0–0 / I 0–1 is 1.65.…”

Section: Resultsmentioning

confidence: 99%

“…The absorption intensity of this peak is represented as I 0−0 (Figure 6d). 30,54 By comparing the normalized UV−vis absorption spectra, there is no shift of λ 0−1 or λ 0−0 . In addition, the relative absorption intensity ratio between 0 and 0 and 0−1 peaks (I 0−0 /I 0−1 ) is a crucial parameter to evaluate the interchain aggregation of IDTBT chains (Figure 6e).…”

Section: ■ Results and Discussionmentioning

confidence: 99%

“…Nonetheless, the circular distribution of side chains allows for better chain flow, thereby enhancing the stretchability of the thin film. Additionally, researchers have proposed the use of nitrene-induced photocross-linkers as an alternative to interchain entanglements for improving the stretchability of IDTBT . By cross-linking the rigid conjugated backbones, irreversible chain sliding can be prevented, and elastic properties can be introduced to the material.…”

Section: Introductionmentioning

confidence: 99%

“…Additionally, researchers have proposed the use of nitrene-induced photocross-linkers as an alternative to interchain entanglements for improving the stretchability of IDTBT. 30 By cross-linking the rigid conjugated backbones, irreversible chain sliding can be prevented, and elastic properties can be introduced to the material. Furthermore, Bao et al developed an elastic semiconductor film with remarkable tensile properties by initiating in situ cross-linking of rubber-rubber and rubber-IDTBT.…”

Section: ■ Introductionmentioning

confidence: 99%

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Introduction of Metal Coordination Bonds into Conjugated Polymers to Increase Carrier Mobility and Stretchability

Chen,

Zhou,

Zhao

et al. 2023

Macromolecules

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Section: Resultsmentioning

confidence: 99%

Section: ■ Results and Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: ■ Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Introduction of Metal Coordination Bonds into Conjugated Polymers to Increase Carrier Mobility and Stretchability

Chen,

Zhou,

Zhao

et al. 2023

Macromolecules

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“…We synthesized a cross-linking agent containing an azide functional group (n-NIPS), which can be cross-linked with hydrocarbons in the aliphatic side chain of conjugated polymers and improved the CoS of the IDTBT films from 35% to 100% through cross-linking. 115 The side chains of IDTBT formed a cross-linking network through n-NIPS to reduce chain slippage caused by stretching. As the number of repeating units of n-NIPS increased from 1 to 14, the hydrophilic interaction of n-NIPS became stronger.…”

Section: ■ Conclusion and Outlookmentioning

confidence: 99%

Structural Insights into Conjugated Polymers for Stretchable Organic Transistors

Chung,

Kim,

et al. 2023

Chem. Mater.

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Stretchable electronics constitute a promising and innovative field, particularly in the development of fully stretchable transistors by using conjugated polymers (CPs). CPs have a unique thin-film microstructure with coexisting crystalline and amorphous regions, enabling a sophisticated balance between efficient charge transport and stretchable mechanical behavior. Despite recent advancements in polymer science, balancing these electrical and mechanical properties remains challenging. In this review, we discuss various aspects of the molecular, meso-, and macro-scale structural factors that affect the charge-transport behavior of CPs under stretching conditions. We begin this review with a brief introduction to polymer thin-film mechanics and related testing methods for obtaining the stress−strain relationship of CPs. Next, we introduce the morphological and structural aspects at various scales that affect stable charge transport under uniaxial tensile stretching. From a structural perspective, we also present strategies to improve the mechanical and electrical properties of CP thin films including blending functional additives, cross-linking the CP chains, and forming CP nanowire structures. Ongoing challenges and the outlook for this rapidly evolving field are also discussed. This review will provide valuable insights for readers interested in studying stretchable CPs with high electrical performance.

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Insulating Electrets Converted from Organic Semiconductor for High‐Performance Transistors, Memories, and Artificial Synapses

Li,

An,

Tan

et al. 2023

Adv Funct Materials

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Electrets are commonly used charged insulators that generate a quasi‐permanent electric field. However, when conventional electrets come into direct contact with semiconductors, the energy level mismatch at the interface results in low memory speed and high energy consumption of electret devices due to both charge injection and storage being non‐conducive. To address this, the n‐type semiconductor N,N′‐dioctyl‐3,4,9,10‐perylene tetracarboxylic diimide (C8‐PTCDI) is converted to C8‐PTCDI (D) via oxygen degradation. The resulting C8‐PTCDI (D) electrets, when charged using an electric field and/or light, retain the energy level of the n‐type semiconductors to facilitate charge trapping. They also exhibit deeper trap energy levels and increased trap density, thereby enhancing the sheet charge density of C8‐PTCDI (D) electrets (7.47 × 1012 cm−2). As a result, devices based on n‐type electrets demonstrate lower operation voltage (2 V) of transistors, lower operation voltage (20 V) of memories, and lower energy consumption (3.5 fJ per spike) of artificial synapses compared to those without n‐type electrets.

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Designing a Length‐Modulated Azide Photocrosslinker to Improve the Stretchability of Semiconducting Polymers

Cited by 11 publications

References 66 publications

Introduction of Metal Coordination Bonds into Conjugated Polymers to Increase Carrier Mobility and Stretchability

Introduction of Metal Coordination Bonds into Conjugated Polymers to Increase Carrier Mobility and Stretchability

Structural Insights into Conjugated Polymers for Stretchable Organic Transistors

Insulating Electrets Converted from Organic Semiconductor for High‐Performance Transistors, Memories, and Artificial Synapses

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