Flexible Paper-Based Room-Temperature Acetone Sensors with Ultrafast Regeneration

Davis, Disiya; Narayanan, Swathi Krishna; Ajeev, Arya; Nair, Jayashree; Jeeji, Jithin; Vijayan, Ananthu; Kuttyadi, Midhun Viyyur; Sathian, Arun Nelliparambil; Arulkashmir, Arulraj

doi:10.1021/acsami.2c21712

Cited by 13 publications

(4 citation statements)

References 67 publications

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“…Davis et al [ 226 ] engineered a flexible paper-based sensor for acetone detection at room temperature. The paper-based electrodes were crafted through the application of zinc oxide (ZnO)-polyaniline-based conductive inks ( Figure 10 d).…”

Section: Environmental Monitoring/sensingmentioning

confidence: 99%

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Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Kumar,

Kaushal,

Lee

2024

Biosensors

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This manuscript offers a concise overview of paper microfluidics, emphasizing its sustainable sensing applications in healthcare, environmental monitoring, and food safety. Researchers have developed innovative sensing platforms for detecting pathogens, pollutants, and contaminants by leveraging the paper’s unique properties, such as biodegradability and affordability. These portable, low-cost sensors facilitate rapid diagnostics and on-site analysis, making them invaluable tools for resource-limited settings. This review discusses the fabrication techniques, principles, and applications of paper microfluidics, showcasing its potential to address pressing challenges and enhance human health and environmental sustainability.

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Section: Environmental Monitoring/sensingmentioning

confidence: 99%

Section: Environmental Monitoring/sensingmentioning

confidence: 99%

Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Kumar,

Kaushal,

Lee

2024

Biosensors

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show abstract

“…Davis et al [215] engineered a flexible paper-based sensor for acetone detection at room temperature. The paper-based electrodes were crafted through the application of zinc oxide (ZnO)-polyanilinebased conductive inks (Figure 9(d)).…”

Section: Air Quality Monitoring/gas Sensingmentioning

confidence: 99%

Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Kumar,

Kaushal,

Lee

2024

Preprint

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This manuscript offers a concise overview of paper microfluidics, emphasizing its sustainable sensing applications in healthcare, environmental monitoring, and food safety. Researchers have developed innovative sensing platforms for detecting pathogens, pollutants, and contaminants by leveraging the paper’s unique properties, such as biodegradability and affordability. These portable, low-cost sensors facilitate rapid diagnostics and on-site analysis, making them invaluable tools for resource-limited settings. The review discusses fabrication techniques, principles, and applications of paper microfluidics, showcasing its potential to address pressing challenges and enhance human health and environmental sustainability.

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“…Recently, functional nanomaterials have been integrated into flexible gas sensors, providing excellent mechanical durability and stable sensing performance. This integration has promoted their broad range of applications in detecting various harmful gases, particularly under continuous bending conditions. , Rational design and development of high-performance flexible devices for specific scenarios with high accuracy, long-term stability, and wearable potential continue to pose significant challenges.…”

mentioning

confidence: 99%

Synergistic Etching and Hydrogen Bonding-Induced Self-Assembly of MXene/MOF Hybrid Aerogel for Flexible Room-Temperature Gas Sensing

Liu,

Lv,

Zhang

et al. 2024

ACS Sens.

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Limited by insufficient active sites and restricted mechanical strength, designing reliable and wearable gas sensors with high activity and ductility remains a challenge for detecting hazardous gases. In this work, a thermally induced and solvent-assisted oxyanion etching strategy was implemented for selective pore opening in a rigid microporous Cu-based metal−organic framework (referred to as CuM). A conductive CuM/MXene aerogel was then self-assembled through cooperative hydrogen bonding interactions between the carbonyl oxygen atom in PVP grafted on the surface of defect-rich Cu-BTC and the surface functional hydroxyl group on MXene. A flexible NO 2 sensing performance using the CuM/ MXene aerogel hybridized sodium alginate hydrogel is finally achieved, demonstrating extraordinary sensitivity (S = 52.47 toward 50 ppm of NO 2 ), good selectivity, and rapid response/recovery time (0.9/4.5 s) at room temperature. Compared with commercial sensors, the relative error is less than 7.7%, thereby exhibiting significant potential for application in monitoring toxic and harmful gases. This work not only provides insights for guiding rational synthesis of ideal structure models from MOF composites but also inspires the development of high-performance flexible gas sensors for potential multiscenario applications.

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Flexible Paper-Based Room-Temperature Acetone Sensors with Ultrafast Regeneration

Cited by 13 publications

References 67 publications

Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Sustainable Sensing with Paper Microfluidics: Applications in Health, Environment, and Food Safety

Synergistic Etching and Hydrogen Bonding-Induced Self-Assembly of MXene/MOF Hybrid Aerogel for Flexible Room-Temperature Gas Sensing

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