Intrinsically flexible displays: key materials and devices

Zhao, Zhiyuan; Li, Kai; Liu, Yanwei; Guo, Yunlong; Liu, Yunqi

doi:10.1093/nsr/nwac090

Cited by 61 publications

(23 citation statements)

References 100 publications

(144 reference statements)

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“…In the past few decades, high-performance organic thin-film transistors (OTFTs) as element units in organic integrated circuits exhibit broad application prospects in foldable electronics, nonvolatile memory, biosensors, etc. − The gate dielectric layer, , as an important component of OTFTs, is the key to controlling the surface morphology, crystallinity, and grain size of organic semiconductors, as well as influencing the carrier transport efficiency of OTFTs. Traditional high process temperatures and brittleness make inorganic gate dielectric materials difficult to meet the need of use from rigid to flexible or organic electronic devices, such as oxides and nitrides .…”

Section: Introductionmentioning

confidence: 99%

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Wang

et al. 2023

ACS Appl. Mater. Interfaces

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Alkyl chain modification strategies in both organic semiconductors and inorganic dielectrics play a crucial role in improving the performance of organic thin-film transistors (OTFTs). Polyimide (PI) and its derivatives have received extensive attention as dielectrics for application in OTFTs because of flexibility, high-temperature resistance, and low cost. However, low-temperature solution processing PI-based gate dielectric for flexible OTFTs with high mobility, low operating voltage, and high operational stability remains an enormous challenge. Furthermore, even though di-n-decyldinaphtho[2,3-b:2′,3′-f]thieno[3,2-b]thiophene (C10-DNTT) is known to have very high mobility as an air-stable and high-performance organic semiconductor, the C10-DNTT-based TFTs on the PI gate dielectrics still showed relatively low mobility. Here, inspired by alkyl side chain engineering, we design and synthesize a series of PI materials with different alkyl side chain lengths and systematically investigate the PI surface properties and the evolution of organic semiconductor morphology deposited on PI surfaces during the variation of alkyl side chain lengths. It is found that the alkyl side chain length has a critical influence on the PI surface properties, as well as the grain size and molecular orientation of semiconductors. Good field-effect characteristics are obtained with high mobilities (up to 1.05 and 5.22 cm2/Vs, which are some of the best values reported to date), relatively low operating voltage, hysteresis-free behavior, and high operational stability in OTFTs. These results suggest that the strategy of optimizing alkyl side-chain lengths opens up a new research avenue for tuning semiconductor growth to enable high mobility and outstanding operational stability of PI-based OTFTs.

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Section: Introductionmentioning

confidence: 99%

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Wang

et al. 2023

ACS Appl. Mater. Interfaces

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“…The comparisons with other polyurethane materials with excellent tensile properties were summarized in Table S4. High elastic deformation is one of the key requirements of intrinsically flexible displays devices, [ 35 ] so colour filters with high elongation at break will be more suitable for the production of intrinsically flexible display equipment with higher performance. Moreover, when the concentration of PDI is low, the elastic moduli decreased with the reduction of PDI dyes, which may contribute to the decrease of rigid structure content in the polymer system.…”

Section: Resultsmentioning

confidence: 99%

Perylene Diimide Incorporated Polyurethane Polymer as Potential Colour Filter Material with Non‐fluorescent Property^†

et al. 2023

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Comprehensive Summary A novel polyurethane polymer containing perylene diimide (PDI) unit and aniline segment, denoted as PU‐PDI, was designed and synthesized. Their tensile property and photophysical characteristic were investigated using various experimental and theoretical techniques. It is found that the elongation of PU‐PDIs can reach more than 1000%, indicating good tensile performance. Moreover, based on the photoinduced electron transfer mechanism, the aniline segments in polyurethane can quench the auto‐fluorescence of PDI unit to a negligible value, which overcomes the intractable fluorescence drawbacks of conventional colour filters. The non‐emissive characteristic, in combination with the good thermal stability and tensile property of PU‐PDI, provides a feasible design strategy to fabricate optical filters with high display quality.

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“…Overall, an extensive and in-depth understanding of strain-mediated magnetism in MoS 2 is needed, which would provide new avenues for spintronics [ 189 , 190 , 191 , 192 , 193 , 194 , 195 , 196 , 197 ] and straintronics [ 198 , 199 , 200 , 201 , 202 ].…”

Section: Discussionmentioning

confidence: 99%

Strain-Modulated Magnetism in MoS2

Ren

Xiang

2022

Nanomaterials

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Since the experiments found that two-dimensional (2D) materials such as single-layer MoS2 can withstand up to 20% strain, strain-modulated magnetism has gradually become an emerging research field. However, applying strain alone is difficult to modulate the magnetism of single-layer pristine MoS2, but applying strain combined with other tuning techniques such as introducing defects makes it easier to produce and alter the magnetism in MoS2. Here, we summarize the recent progress of strain-dependent magnetism in MoS2. First, we review the progress in theoretical study. Then, we compare the experimental methods of applying strain and their effects on magnetism. Specifically, we emphasize the roles played by web buckles, which induce biaxial tensile strain conveniently. Despite some progress, the study of strain-dependent MoS2 magnetism is still in its infancy, and a few potential directions for future research are discussed at the end. Overall, a broad and in-depth understanding of strain-tunable magnetism is very necessary, which will further drive the development of spintronics, straintronics, and flexible electronics.

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Intrinsically flexible displays: key materials and devices

Cited by 61 publications

References 100 publications

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Perylene Diimide Incorporated Polyurethane Polymer as Potential Colour Filter Material with Non‐fluorescent Property^†

Strain-Modulated Magnetism in MoS2

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Intrinsically flexible displays: key materials and devices

Cited by 61 publications

References 100 publications

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Optimization of Alkyl Side Chain Length in Polyimide for Gate Dielectrics to Achieve High Mobility and Outstanding Operational Stability in Organic Transistors

Perylene Diimide Incorporated Polyurethane Polymer as Potential Colour Filter Material with Non‐fluorescent Property†

Strain-Modulated Magnetism in MoS2

Contact Info

Product

Resources

About

Perylene Diimide Incorporated Polyurethane Polymer as Potential Colour Filter Material with Non‐fluorescent Property^†