Photolithographically patterned and highly stable electrochromic displays enabled by a photo-assisted cross-linker

Photolithography is a standard technique for high resolution patterning of electronic devices. This study presents a new tris-diazo compound (X8) as a carbene crosslinker which responds to UV photons and can be directly patterned by photolithography. The tris-diazo compound (X8) has been successfull...

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Published inJournal of materials chemistry. C, Materials for optical and electronic devices Vol. 11; no. 44; pp. 15591 - 15598
Main Authors Huang, Chenchao, Yi, Yuan-Qiu-Qiang, Hu, Zishou, Zhang, Shuo, Wu, Xinzhou, Chen, Xiaolian, Xu, Wenya, Su, Wenming, Cui, Zheng
Format Journal Article
LanguageEnglish
Published Cambridge Royal Society of Chemistry 16.11.2023
Subjects
Bleaching
Corrosion resistance
Crosslinking
Displays
Electrochromic cells
Electrochromism
Photolithography
Ultraviolet radiation
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Abstract Photolithography is a standard technique for high resolution patterning of electronic devices. This study presents a new tris-diazo compound (X8) as a carbene crosslinker which responds to UV photons and can be directly patterned by photolithography. The tris-diazo compound (X8) has been successfully applied to fabricate solution-processable electrochromic polymer (ECP) displays. Upon exposure to UV light of 254 nm wavelength, the blend of X8 (≤5 wt%) with ECP (PProDOT, poly(3,4-propylenedioxythiophene)) can cross-link, exhibiting a ∼93% solvent resistance whereas the pristine PProDOT does not cross-link at all. The electrochromic devices (ECDs) based on the crosslinked PProDOT showed an exceptional stability of 300 000 operational cycles, with both bleaching and coloring time of 0.5 s without obvious deterioration. With lithographical patterning, a minimum 50 μm size of display pixel has been realized, which paves the way for future large-area and low-cost electrochromic display applications. A newly designed tris-diazo compound has been successfully applied to fabricate high-performance solution-processable electrochromic polymer displays.
AbstractList Photolithography is a standard technique for high resolution patterning of electronic devices. This study presents a new tris-diazo compound (X8) as a carbene crosslinker which responds to UV photons and can be directly patterned by photolithography. The tris-diazo compound (X8) has been successfully applied to fabricate solution-processable electrochromic polymer (ECP) displays. Upon exposure to UV light of 254 nm wavelength, the blend of X8 (≤5 wt%) with ECP (PProDOT, poly(3,4-propylenedioxythiophene)) can cross-link, exhibiting a ∼93% solvent resistance whereas the pristine PProDOT does not cross-link at all. The electrochromic devices (ECDs) based on the crosslinked PProDOT showed an exceptional stability of 300 000 operational cycles, with both bleaching and coloring time of 0.5 s without obvious deterioration. With lithographical patterning, a minimum 50 μm size of display pixel has been realized, which paves the way for future large-area and low-cost electrochromic display applications.
Photolithography is a standard technique for high resolution patterning of electronic devices. This study presents a new tris-diazo compound (X8) as a carbene crosslinker which responds to UV photons and can be directly patterned by photolithography. The tris-diazo compound (X8) has been successfully applied to fabricate solution-processable electrochromic polymer (ECP) displays. Upon exposure to UV light of 254 nm wavelength, the blend of X8 (≤5 wt%) with ECP (PProDOT, poly(3,4-propylenedioxythiophene)) can cross-link, exhibiting a ∼93% solvent resistance whereas the pristine PProDOT does not cross-link at all. The electrochromic devices (ECDs) based on the crosslinked PProDOT showed an exceptional stability of 300 000 operational cycles, with both bleaching and coloring time of 0.5 s without obvious deterioration. With lithographical patterning, a minimum 50 μm size of display pixel has been realized, which paves the way for future large-area and low-cost electrochromic display applications. A newly designed tris-diazo compound has been successfully applied to fabricate high-performance solution-processable electrochromic polymer displays.
Author Hu, Zishou
Xu, Wenya
Zhang, Shuo
Chen, Xiaolian
Wu, Xinzhou
Su, Wenming
Cui, Zheng
Huang, Chenchao
Yi, Yuan-Qiu-Qiang
AuthorAffiliation pi-Conjugated Polymers Unit
Chinese Academy of Sciences
Suzhou Institute of Nano-Tech and Nano-Bionics
Printable Electronics Research Center
Okinawa Institute of Science and Technology
Nano-Devices and Materials Division
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CitedBy_id crossref_primary_10_1002_adfm_202314983
crossref_primary_10_1016_j_solmat_2024_113021
crossref_primary_10_1021_acs_macromol_4c00483
crossref_primary_10_1021_acsnano_4c03458
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Snippet Photolithography is a standard technique for high resolution patterning of electronic devices. This study presents a new tris-diazo compound (X8) as a carbene...
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SubjectTerms Bleaching
Corrosion resistance
Crosslinking
Displays
Electrochromic cells
Electrochromism
Photolithography
Ultraviolet radiation
Title Photolithographically patterned and highly stable electrochromic displays enabled by a photo-assisted cross-linker
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