MOF-Nanocomposite Mixed-Matrix Membrane for Dual-Luminescence Ratiometric Temperature Sensing

Accurate measurement of temperature is crucial in many branches of medicine, science, and engineering, and often requires temperature sensors that are noninvasive, of high accuracy, and can spatially resolve thermal fluctuations at the nanoscale. Here a new type of flexible and tailorable mixed-matrix membranes (MMMs) is introduced, which feature dual-emitting metal-organic framework (MOF)-based nanocomposites embedded in polymer matrix, and its potential use in luminescence temperature sensing is evaluated. The as-prepared Cdots&RB@ZIF-8(2)-MMM inherits the luminescence properties of the incorporated Cdots&RB@zeolitic-imidazolate-framework (ZIF)-8(2) nanocomposite and possesses the luminescence of both the blue-emitting carbon dots (Cdots) and the green-emitting rhodamine B (RB). Since the fluorescence resonance energy transfer between the two guest emitters is thermally correlated, the thermometric parameter (I-C/I-RB) of the Cdots&RB@ZIF-8(2)-MMM has excellent linear response in the physiological temperature range, with favorable relative sensitivity, spectral repeatability, and structural stability. The new ratiometric membranous thermometers proposed here should initiate further interest in luminescent MOF/polymer hybrids and their diverse sensing applications.

Automated summary

This paper introduces a new type of flexible and tailorable mixed-matrix membranes embedded with dual-emitting metal-organic framework (MOF) based nanocomposites for luminescence temperature sensing. The prepared membrane shows excellent linear response, relative sensitivity, and structural stability in the physiological temperature range, initiating further interest in luminescent MOF/polymer hybrids and their diverse sensing applications.