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Versatile Nickel(II) Scaffolds as Coordination‐Induced Spin‐State Switches for 19 F Magnetic Resonance‐Based Detection
Author(s) -
Xie Da,
Yu Meng,
Xie ZhuLin,
Kadakia Rahul T.,
Chung Chris,
Ohman Lauren E.,
Javanmardi Kamyab,
Que Emily L.
Publication year - 2020
Publication title -
angewandte chemie
Language(s) - English
Resource type - Journals
eISSN - 1521-3757
pISSN - 0044-8249
DOI - 10.1002/ange.202010587
Subject(s) - diamagnetism , electron paramagnetic resonance , relaxation (psychology) , paramagnetism , chemistry , nickel , nuclear magnetic resonance spectroscopy , nuclear magnetic resonance , site directed spin labeling , spectroscopy , biosensor , spin (aerodynamics) , magnetic relaxation , ion , resonance (particle physics) , analytical chemistry (journal) , materials science , nanotechnology , stereochemistry , atomic physics , physics , condensed matter physics , magnetic field , magnetization , psychology , social psychology , organic chemistry , quantum mechanics , chromatography , thermodynamics
Abstract 19 F magnetic resonance (MR) based detection coupled with well‐designed inorganic systems shows promise in biological investigations. Two proof‐of‐concept inorganic probes that exploit a novel mechanism for 19 F MR sensing based on converting from low‐spin ( S =0) to high‐spin ( S =1) Ni 2+ are reported. Activation of diamagnetic NiL 1 and NiL 2 by light or β‐galactosidase, respectively, converts them into paramagnetic NiL 0 , which displays a single 19 F NMR peak shifted by >35 ppm with accelerated relaxation rates. This spin‐state switch is effective for sensing light or enzyme expression in live cells using 19 F MR spectroscopy and imaging that differentiate signals based on chemical shift and relaxation times. This general inorganic scaffold has potential for developing agents that can sense analytes ranging from ions to enzymes, opening up diverse possibilities for 19 F MR based biosensing.

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