Real-time optical and electronic sensing with a β-amino enone linked, triazine-containing 2D covalent organic framework

Kulkarni, Ranjit; Noda, Yu; Barange, Deepak Kumar; Kochergin, Yaroslav S.; Balcarova, Barbora; Lyu, Pengbo; Nachtigal, Petr; Bojdys, Michael J.

doi:10.1038/s41467-019-11264-z

Cited by 131 publications

(125 citation statements)

References 40 publications

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“…[ 1,2 ] This combination of properties makes 2D COFs promising for a variety of applications, including nanofiltration membranes, [ 3–5 ] charge‐storage devices, [ 6–8 ] and chemical sensors. [ 9–16 ] Despite this promise, conventionally isolated polycrystalline 2D COF powders are insoluble and effectively unprocessable, which have limited their integration into thin‐film device architectures. [ 17–19 ] This limitation has inspired the exploration of numerous thin‐film fabrication approaches, including direct polymerization on substrates, [ 20,21 ] continuous flow methods, [ 22–24 ] interfacial polymerization, [ 3,25,26 ] and electrophoretic deposition.…”

Section: Figurementioning

confidence: 99%

High‐Sensitivity Acoustic Molecular Sensors Based on Large‐Area, Spray‐Coated 2D Covalent Organic Frameworks

et al. 2020

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2D covalent organic frameworks (2D COFs) are structurally regular and synthetically versatile (>400 reported structures) layered 2D polymers with high surface areas (>2000 m 2 g-1) and robust covalent bonds. [1,2] This combination of properties makes 2D COFs promising for a variety of applications, 2D covalent organic frameworks (2D COFs) are a unique materials platform that combines covalent connectivity, structural regularity, and molecularly precise porosity. However, 2D COFs typically form insoluble aggregates, thus limiting their processing via additive manufacturing techniques. In this work, colloidal suspensions of boronate-ester-linked 2D COFs are used as a spray-coating ink to produce large-area 2D COF thin films. This method is synthetically general, with five different 2D COFs prepared as colloidal inks and subsequently spray-coated onto a diverse range of substrates. Moreover, this approach enables the deposition of multiple 2D COF materials simultaneously, which is not possible by polymerizing COFs on substrates directly. When combined with stencil masks, spray-coated 2D COFs are rapidly deposited as thin films larger than 200 cm 2 with line resolutions below 50 µm. To demonstrate that this deposition scheme preserves the desirable attributes of 2D COFs, spray-coated 2D COF thin films are incorporated as the active material in acoustic sensors. These 2D-COF-based sensors have a 10 ppb limit-of-quantification for trimethylamine, which places them among the most sensitive sensors for meat and seafood spoilage. Overall, this work establishes a scalable additive manufacturing technique that enables the integration of 2D COFs into thin-film device architectures.

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Section: Figurementioning

confidence: 99%

High‐Sensitivity Acoustic Molecular Sensors Based on Large‐Area, Spray‐Coated 2D Covalent Organic Frameworks

et al. 2020

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“…Wie das Forschungsteam zeigte, beruht die Sensorfähigkeit des Materials auf Protonierung des eingebauten Triazin-Elektronenakzeptors. 29) Die Gruppen um von Hauff und Pammer überführten konjugierte Poly(pyridin)e und Poly(p-phenylen-pyrazinylen)e durch Hydroborierung in Leiterpolymere. Durch das Boran lassen sich sowohl die optische Bandlücke als auch die Elektronenaffinität über einen weiten Bereich variieren.…”

Section: Makromolekulare Chemieunclassified

Trendbericht: Makromolekulare Chemie

Gallei¹,

Schmidt²

2020

Nachr Chem

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Das Jahr 2020 steht im Zeichen der Polymere, deren erste Beschreibung auf Hermann Staudinger zurückgeht.1,2) Dieser Trendbericht behandelt die Forschung des wissenschaftlichen Nachwuchses, also von Habilitanden, Juniorprofessoren, Postdoktoranden, Privatdozenten und Gruppenleitern. Es geht um Biopolymere und biomedizinische Anwendungen von Polymeren, Polymermaterialien und ‐synthese sowie stimuliresponsive Polymersysteme und Polymerarchitekturen und deren Selbstanordnung.

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“…Moreover, ozone decomposition can be accelerated by initiators such as OH − which can be generated by the protonation of imine groups with water molecules [38–40] . Usually, alteration of the chemical environment of functional groups (e.g., imine) will affect the optical band gaps of materials in the visible part of the spectrum, thus causing the color change [35, 41] . Therefore, imine can be an ideal responsive group for ozone‐related applications.…”

Section: Introductionmentioning

confidence: 99%

Rational Fabrication of Crystalline Smart Materials for Rapid Detection and Efficient Removal of Ozone

et al. 2021

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Traditional ozone sensing and removal materials still suffer from high energy consumption and low efficiency. Thus, seeking new ozone‐responsive materials with high efficiency and broad working conditions is of great significance. Herein, we first developed covalent organic frameworks (COFs) for smart sensing and efficient removal of ozone. Notably, imine‐based COFs possess dramatically fast optical responses (<1 s) to ozone as low as 0.1 ppm under broad working conditions (e.g., in the presence or absence of moisture, room temperature). Moreover, we found that imine‐based COFs can also be applied as excellent ozone removers that can efficiently reduce the ozone concentration below the recommended safety limit (<0.1 ppm) for humans. The mechanism for the performance of imine‐based COFs was unveiled in‐depth by various characterization techniques and analyses. This study not only provides a new type of advanced materials for ozone sensing and removal but also broadens the application scope of COFs.

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Real-time optical and electronic sensing with a β-amino enone linked, triazine-containing 2D covalent organic framework

Cited by 131 publications

References 40 publications

High‐Sensitivity Acoustic Molecular Sensors Based on Large‐Area, Spray‐Coated 2D Covalent Organic Frameworks

High‐Sensitivity Acoustic Molecular Sensors Based on Large‐Area, Spray‐Coated 2D Covalent Organic Frameworks

Trendbericht: Makromolekulare Chemie

Rational Fabrication of Crystalline Smart Materials for Rapid Detection and Efficient Removal of Ozone

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