Abstract
Formic acid is an important industrial chemical but is toxic and corrosive. To benefit its qualified use and to avoid corrosion or injury from touching, rapid, portable and sensitive on-site sensing of formic acid is thus of considerable importance. Here, a photonic crystal coating sensor for formic acid visual detection is fabricated through the mild co-assembly of both biomass-based cellulose nanocrystals (CNCs) and hydroxypropyl-β-cyclodextrin (HPCD) on a quartz glass slide. Further surface modification by hexadecyltrimethoxysilane (HTDMS) with low surface energy significantly overcomes the inherent water intolerance of the CNC-HPCD composite while maintaining its chiral nematic structure. The resulting hydrophobic CNC-HPCD (H-CNC) sensing slide shows a distinct and rapid structural color change after formic acid stimulation, realizing the formic acid detection by naked eye. By virtue of its stable and repeatable water resistance, the H-CNC sensing slide enables the specific colorimetric detection of formic acid in water-containing environments for qualitative and even quantitative purposes. This study suggests that H-CNC has the potential to act as a high-performance sensing platform that is useful for the colorimetric detection of formic acid in some industrial products.
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