Spray‐n‐Sense: Sprayable Nanofibers for On‐Site Chemical Sensing

Bakshi, Shrishty; Snoswell, Aaron J.; Kwok, Kei Yeung; Cheng, Lung Hei; Altalhi, Tariq; Santos, Abel; Popat, Amirali; Kumeria, Tushar

doi:10.1002/adfm.202103496

Cited by 7 publications

(1 citation statement)

References 60 publications

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“…One is the long-term stability of the probe would face challenges from the liquid environment resulted undesired activity, and the other is the inevitable transport and diffusion of either the solid analyte or the reaction product would cause a fatal dilution of the limited color signal. In terms of the above issues, various mediums have been investigated, such as paper strips, , fibrous membranes, , hydrogels, − and so on, mainly focusing on solving the second challenge. However, no matter what kind of materials or technologies applied for solid–liquid type sensing, remarkably fundamental and crucial role of solvent should not be neglected.…”

mentioning

confidence: 99%

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Zhang

et al. 2022

Anal. Chem.

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Achieving sensitive and robust colorimetry is of great significance for on-site chemical detection, but has always been a dilemma or at the expense of practicality. Here, from the perspective of solvent, which is commonly the indispensable medium for chemical sensing, the solvent induction strategy concerning the hydrophobic shielding and hydrophilic bonding solvent cage was proposed considering the configuration branching ratio in the reagent and the prevention of the autoxidation channel. Due to the competitive delocalized charge transfer in the probe and the effective viscous drag in the reagent, remarkable sensing signal concentrating and moisture retention capability were achieved. We expect the present strategy would facilitate the active but robust chemical reaction design and provide a universal methodology for the exploration of high-performance chemical sensors.

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confidence: 99%

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Zhang

et al. 2022

Anal. Chem.

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Fluorescence Light‐Up Electrospun Membrane Incorporated with PbBr₂ as a Highly Selective Fluorescence Probe for the Detection of Cs+

Ye,

Li,

Zhao

et al. 2024

Advanced Sensor Research

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This study introduces a novel fluorescent light‐up electrospun membrane, integrating PbBr2, which serves as an exceptionally selective probe for the detection of cesium ions (Cs+). Leveraging the superior optical properties of CsPbBr3 perovskite nanocrystals (PNCs), the researchers employ electrospinning technology to fabricate a test strip, namely PbBr2@polyacrylonitrile (PbBr2@PAN) nanofiber membranes, capable of swiftly detecting Cs+ in water merely by observing changes in the nanocrystals' luminescence with the naked eye. By the introduction of NH4+‐modified montmorillonite (NH4+‐MMT), PbBr2‐MT@PAN nanofiber membranes is obtained. The selectivity and sensitivity to Cs+ can be further improved because NH4+‐MMT endows PbBr2‐MT@PAN nanofiber membranes with the hydrophilic property and selective adsorption toward Cs+ ions. The membrane's fabrication is simple, scalable, and cost‐effective, with high cesium selectivity and sensitivity down to 44 ppb. This innovation enables efficient, on‐site cesium monitoring critical for environmental safety and nuclear waste management.

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Room‐Temperature Processable Stretchable Conductive Composite Material for Electrical Interfacing in Stretchable Printed Circuit Boards

Cho,

Jang,

Chae

et al. 2024

Adv Elect Materials

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This study introduces a novel Room‐Temperature Processable Stretchable Conductive Composite (RTPSC), uniquely combining room‐temperature processability, stretchability, and conductivity. Unlike traditional conductive materials requiring thermal or UV curing, which can damage heat‐sensitive components or cause substrate distortion, RTPSC uses a Styrene‐Butadiene‐Styrene (SBS) elastomer blended with silver conductive fillers and paraffin oil. This composition enables rapid solidification within five minutes at room temperature, mitigating thermal risks. Surface ligands on silver flakes are replaced with oleylamine, resulting in uniform silver distribution and enhanced resistance to acids, bases, and oxidation. The composite exhibits low contact resistance (0.1 Ω across 7.7 mm2) and maintains robust mechanical and electrical properties under extensive deformation, thanks to its high adhesion force (704.5 gF/25 mm). Notably, contact resistance change remains within 0.15 Ω even after 1800 cycles at 50% strain. RTPSC's viscosity can be finely tuned by adding solvents and secondary fluids, enabling various printing techniques from spray to omni‐directional printing. This adaptability allows intricate patterning on delicate structures via spray printing and versatile connections between stretchable electrodes and rigid components through omni‐directional printing. These capabilities provide extensive design flexibility and ease of repair, making RTPSC highly suitable for innovative development and maintenance of stretchable electronic devices.

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Spray‐n‐Sense: Sprayable Nanofibers for On‐Site Chemical Sensing

Cited by 7 publications

References 60 publications

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Fluorescence Light‐Up Electrospun Membrane Incorporated with PbBr₂ as a Highly Selective Fluorescence Probe for the Detection of Cs+

Room‐Temperature Processable Stretchable Conductive Composite Material for Electrical Interfacing in Stretchable Printed Circuit Boards

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Spray‐n‐Sense: Sprayable Nanofibers for On‐Site Chemical Sensing

Cited by 7 publications

References 60 publications

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Competitive Delocalized Charge Transfer Boosted by Solvent Induction Strategy for Survivable Colorimetric Detection of ng-Level Urea

Fluorescence Light‐Up Electrospun Membrane Incorporated with PbBr2 as a Highly Selective Fluorescence Probe for the Detection of Cs+

Room‐Temperature Processable Stretchable Conductive Composite Material for Electrical Interfacing in Stretchable Printed Circuit Boards

Contact Info

Product

Resources

About

Fluorescence Light‐Up Electrospun Membrane Incorporated with PbBr₂ as a Highly Selective Fluorescence Probe for the Detection of Cs+