AI Article Synopsis
- Researchers developed a novel polymer-free optode nanosensor specifically designed for ratiometric imaging of sodium ions, overcoming limitations of traditional sodium dyes.
- The nanosensors are stable, selective, and capable of measuring sodium concentrations with impressive sensitivity, showing a significant change in fluorescent signal across a range of sodium levels.
- These advancements pave the way for improved methods in ion imaging, offering a more precise and reliable tool for studying ion dynamics.
Article Abstract
This work introduces a polymer-free optode nanosensor for ratiometric sodium imaging. Transmembrane ion dynamics are often captured by electrophysiology and calcium imaging, but sodium dyes suffer from short excitation wavelengths and poor selectivity. Optodes, optical sensors composed of a polymer matrix with embedded sensing chemistry, have been translated into nanosensors that selectively image ion concentrations. Polymer-free nanosensors were fabricated by emulsification and were stable by diameter and sensitivity for at least one week. Ratiometric fluorescent measurements demonstrated that the nanosensors are selective for sodium over potassium by ~1.4 orders of magnitude, have a dynamic range centered at 20 mM, and are fully reversible. The ratiometric signal changes by 70% between 10 and 100 mM sodium, showing that they are sensitive to changes in sodium concentration. These nanosensors will provide a new tool for sensitive and quantitative ion imaging.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3842545 | PMC |
| http://dx.doi.org/10.1038/srep03366 | DOI Listing |
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Article Synopsis
- Researchers developed a novel polymer-free optode nanosensor specifically designed for ratiometric imaging of sodium ions, overcoming limitations of traditional sodium dyes.
- The nanosensors are stable, selective, and capable of measuring sodium concentrations with impressive sensitivity, showing a significant change in fluorescent signal across a range of sodium levels.
- These advancements pave the way for improved methods in ion imaging, offering a more precise and reliable tool for studying ion dynamics.
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