Towards Ni(II) complexes with spin switches for 19F MR-based pH sensing

Autor: Lauren E Ohman, Emily L. Que, Da Xie
Rok vydání: 2018
Předmět:
Zdroj: Magnetic Resonance Materials in Physics, Biology and Medicine. 32:89-96
ISSN: 1352-8661
0968-5243
DOI: 10.1007/s10334-018-0698-4
Popis: Our aim was to demonstrate the potential of exploiting simultaneous changes in coordination geometry and spin state in fluorinated Ni(II) complexes as an avenue for 19F magnetic-resonance (MR)-based pH sensing. Crystal structures were studied using an Agilent Technologies SuperNova Dual Source diffractometer. Solution magnetic moment was determined using Evan’s method. MR images were collected on a 7.0-T MR scanner equipped with a quadrature 19F volume coil. NiL1 and NiL2 were synthesized; crystallographic and spectroscopic data supported NiL1 as being diamagnetic and NiL2 as being paramagnetic. In aqueous solution, ligand dissociation from Ni(II) center was observed for both complexes at around pH 6, precluding their use as reversible pH sensors. The two complexes have distinct 19F nuclear magnetic resonance (NMR) signals in terms of both chemical shift and relaxation times, and selective imaging of the two complexes was achieved with no signal interference using two 19F MRI pulse sequences. The significant difference in the chemical shift and relaxation times between NiL1 and NiL2 allowed selective imaging of these species using 19F MRI. While NiL1 and NiL2 were not stable to acidic environments, this report lays the framework for development of improved ligand scaffolds that stably coordinate Ni(II) in acidic aqueous solution and act as agents for ratiometric pH mapping by 19F MRI.
Databáze: OpenAIRE
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