Nanocomposite-Decorated Filter Paper as a Twistable and Water-Tolerant Sensor for Selective Detection of 5 ppb-60 v/v% Ammonia.
Lingling DuDongliang FengXiaxia XingChen WangYang GaoShu-Hui SunGuowen MengStephen Y K SeahPublished in: ACS sensors (2022)
Ammonia (NH 3 ) sensors proposed for the simultaneous exhalation diagnosis, environmental pollution monitoring, and industrial leakage alarm require high flexibility, selectivity, stability, humidity tolerance, and wide-concentration-range detection; however, technical challenges still remain. Herein, twistable and water-tolerant paper-based sensors integrated over surgical masks have been developed for NH 3 detection at room temperature, via decorating specially designed ternary nanocomposites (ternary-NCs) on the commercial filter paper. The NCs consist of a multiwalled carbon nanotube framework with a polypyrrole nanolayer and are further loaded with Pt nanodots. Benefiting from the synergy effect of ternary components, the ternary-NCs exhibit an ultrasensitive response to 5 ppb-60 v/v% NH 3 and present high selectivity confirmed by the theory calculations. Remarkably, the filter-paper-based sensors possess outstanding stability against twisting 0-1080°, along with excellent cuttability and foldability. Critically, such paper-based sensors can be integrated over surgical masks for simulated exhaled diagnosis and display superior water tolerance even being immersed in water for 24 h. Practically, the detecting accuracy of the filter-paper-based sensor toward the simulated exhaled NH 3 , environmental NH 3 pollution, and industrial NH 3 leakage is validated using ion chromatography.
Keyphrases
- room temperature
- reduced graphene oxide
- heavy metals
- carbon nanotubes
- gold nanoparticles
- ionic liquid
- label free
- low cost
- human health
- risk assessment
- loop mediated isothermal amplification
- visible light
- real time pcr
- quantum dots
- particulate matter
- mass spectrometry
- high resolution
- life cycle
- perovskite solar cells
- solid phase extraction
- simultaneous determination