Ligand-Substitution-Induced Single-Crystal to Single-Crystal Transformations in a Redox-Versatile Cu(II) MOF toward Smartphone-Based Colorimetric Detection of Iodide.
Nippich KaeosamutYothin ChimupalaPattama YanuSuttipong WannapaiboonNithiwat SammawipawekulSahadsawat TonkaewJaroon JakmuneeSaranphong YimklanPublished in: Inorganic chemistry (2022)
Fabrication of a new three-dimensional Cu(II) metal-organic framework, {[Cu 4 (4,4'-bipy) 3 (OH) 2 (mal) 3 ]·4H 2 O} n ( 1a ; 4,4'-bipy = 4,4'-bipyridine, H 2 mal = malonic acid; P 2 1 / m ), that undergoes an unprecedented redox-versatile ligand-substitution-induced single-crystal to single-crystal transformation, for smartphone-based detection of iodide was studied. The Cu-MOF 1a has been effortlessly synthesized by the microwave-heating technique. Phase formation of the Cu-MOF 1a depended on counter-anions. The transformations can be triggered by halides to corresponding coordination polymers through both non-redox and redox-associated pathways. The changes in the local structure and oxidation state of copper during the transformation were studied by ex situ and in situ synchrotron X-ray absorption spectroscopies. The selectivity of the halide-triggered transformation was investigated. A study on smartphone-based colorimetric detection of iodide was found to be linearly proportional to the iodide concentration in the range 10-1500 mg/L with a limit of detection of 5 mg/L and good precision relative standard deviation of 1.9% ( n = 11), possibly to construct the iodide test kit.
Keyphrases
- metal organic framework
- loop mediated isothermal amplification
- label free
- aqueous solution
- real time pcr
- gold nanoparticles
- hydrogen peroxide
- high glucose
- sensitive detection
- solid state
- diabetic rats
- drug induced
- fluorescent probe
- electron transfer
- magnetic resonance
- magnetic resonance imaging
- oxidative stress
- ionic liquid
- nitric oxide
- computed tomography
- stress induced