Applications of Supramolecular Anion Recognition

TL;DR: A comprehensive review on the development and state of the art of colorimetric and fluorometric sensor arrays is presented and the various chemometric and statistical analyses of high-dimensional data are presented and critiqued in reference to their use in chemical sensing.

TL;DR: If suitably designed, supramolecular gels can be recyclable and environmentally benign, while the responsive and tunable nature of the self-assembled network offers significant advantages over other materials solutions to problems caused by pollution in an environmental setting.

TL;DR: A review summarizing the progress of supramolecular chemotherapy in cancer treatment based on host-guest recognition and guidance on the design of new targeting supramolescular chemotherapy combining diagnostic and therapeutic functions is presented.

TL;DR: The σ-hole and π-hole are the regions with positive surface electrostatic potential on the molecule entity; the former specifically refers to the positive region of a molecular entity along extension of the Y-Ge/P/Se/X covalent ρ-bond.

TL;DR: In this article, a series of 4,6-bis-(1,2,3-triazolyl)-pyrimidine and 4, 6-bis(1, 2,3)-triazyl)-pyridine anion receptors were synthesized and the effect of the pyrimidine moieties on their binding properties was examined.

TL;DR: In this article, the C4-H and C5-H protons of the imidazolium heterocycle have been exploited as a binding site for anion recognition in the design of two new redox-active IMidazoliophane syn and anti isomers.

TL;DR: A series of synthetic molecules bearing the same hydrogen bonding mode observed in StClC were prepared and their transport ability of chloride ion across a lipid membrane was systematically optimized.

TL;DR: Silica nanoparticles functionalized with terpyridine coordination sites and sulforhodamine B fluorophores enable differential sensing of anions through quencher displacement assays, leveraging quenching metal ions for enhanced fluorometric recognition.