Lithium Chloride-Substituted Methylammonium Lead Tribromide Perovskites for Dual γ/Neutron Sensing

Paper-based sensor based on lead-free manganese halide for the determination of water content in organic solvents

A highly stable and luminescent lead-free manganese(II) halide hybrid MnBr₄(TMN)₂ (C₃₄H₄₂Br₄MnN₄) was designed and synthesized by introducing a large cationic organic spacer. The MnBr₄(TMN)₂ displays high luminescence with quantum yields up to 77% and possesses turn-off fluorescence behavior (E_x/E_m=365/546 nm) for water. These properties make the MnBr₄(TMN)₂ a promising candidate as an alternative indicator for the detection of water with potential applications for the fabrication of LEDs. Herein, a paper-based sensor based on MnBr₄(TMN)₂ is described for the determination of water content in organic solvents. The mechanism of water sensing can be tentatively explained by fluorescence quenching originating from the destruction of water due to the Mn-Br bonds of MnBr₄(TMN)₂. The MnBr₄(TMN)₂-based paper sensor exhibits an excellent discrimination ability of water content in the range 0-25.0% with a detection limit of 0.27%. Satisfactory recoveries (94.91±4.09% to 103.23±2.38%) are obtained in spiked ethanol solvent samples, which demonstrate that the MnBr₄(TMN)₂-based paper sensor is capable of detecting water content in real ethanol solvent samples.