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Molecular Switches for any pH: A Systematic Study of the Versatile Coordination Behaviour of Cyclam Scorpionands.

Yu Heng LauJack Kay CleggJason R PriceRene B MacquartMatthew H ToddPeter J Rutledge
Published in: Chemistry (Weinheim an der Bergstrasse, Germany) (2017)
Molecular switches have many potential applications in nanoscience and biomedicine. Transition metal complexes that can be switched from an inert, unreactive state to a catalytically active one by a simple change in conditions (e.g. pH shift) or by binding to a specific biomolecular target-so-called target-activated metal complexes (TAMCs)-hold particular allure as a means of harnessing the potent but at times indiscriminate reactivity of metal-based drugs. Towards this goal, we have prepared a series of ten structurally related ligands, each of which bears a different pendant side-arm functional group appended to a common macrocyclic core, along with copper(II) and nickel(II) complexes of these cyclam-based "molecular scorpionands". X-ray crystal structures reveal a variety of binding modes between pendant side-arm and metal centre that depend on the constituent donor atoms. To investigate the switchability of side-arm coordination in solution, spectrophotometric pH titrations were carried out for all 20 metal complexes. The majority of the complexes undergo spectroscopic changes that are consistent with a switch in pendant coordination state at a specific pH. This ligand series represents a comprehensive model platform from which to build pH-switchable metal complexes for applications in nanoscience and biomedicine.
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