ACS Sens.
 2023
DOI: 10.1021/acssensors.3c00886
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Selective Molecular Recognition and Indicator Displacement Sensing of Neurotransmitters in Cellular Environments

Junyi Chen
1
,
Emily Tabaie
2
,
Briana L Hickey
3
et al.

Abstract: Flexible, water-soluble hosts are capable of selective molecular recognition in cellular environments and can detect neurotransmitters such as choline in cells. Both cationic and anionic water-soluble self-folded deep cavitands can recognize suitable styrylpyridinium dyes in cellular interiors. The dyes selectively accumulate in nucleotide-rich regions of the cell nucleus and cytoplasm. The hosts bind the dyes and promote their relocation to the outer cell membrane: the lipophilic cavitands predominantly resid… Show more

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Supramolecular fluorescence biosensing based on macrocycles

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Xu,
Hu
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Supramolecular fluorescence biosensing based on macrocycles

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Xu,
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et al. 2024
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A calix[3]carbazole-based cavitand: synthesis, structure and its complexation with fullerenes

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et al. 2024
Chem. Commun.
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Supramolecular Sensing Platforms: Techniques for In Vitro Biosensing

Lahiri,
Basu
2024
ChemEngineering
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