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

Austin M. Evans, Nathan P. Bradshaw, Brian Litchfield, Michael J. Strauss, Bethany Seckman, Matthew R. Ryder, Ioannina Castano, Christopher Gilmore, Nathan C. Gianneschi, Catherine R. Mulzer, Mark C. Hersam, William R. Dichtel

Research output: Contribution to journalArticlepeer-review

Abstract

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 cm2 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.

Original languageEnglish
Article number2004205
JournalAdvanced Materials
Volume32
Issue number42
DOIs
Publication statusPublished - Oct 1 2020

Keywords

  • acoustic sensors
  • additive manufacturing
  • covalent organic framework (COF)
  • solution processing
  • thin-films

ASJC Scopus subject areas

  • Materials Science(all)
  • Mechanics of Materials
  • Mechanical Engineering

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