A lanthanide-functionalized covalent triazine framework as a physiological molecular thermometer

Crystalline covalent triazine frameworks (CTFs) with intrinsic porosity and high stability are an excellent platform for engineering luminescence properties, as their building blocks and guest ions are all important factors in light emission. Herein, a highly crystalline bipyridine-based CTF (Bipy-CTF) is synthesized under mild conditions. The controlled tethering of lanthanide ions (Ln = Eu3+ and Tb3+) onto Bipy-CTF combined with selective photoexcitation results in a ratiometric luminescent thermometer (LnCTF). This LnCTF thermometer exhibits an excellent linear response in the solid state over a wide range of temperatures (200-340 K), with a temperature uncertainty below 0.2% and very good reusability (up to 98.5% repeatability). Moreover, the suspended material in water shows a temperature sensitivity down to 253 K (-20 degrees C), which is a very important finding for monitoring the physiological processes within biological and biochemical systems during freezing/defrosting treatment with precise temperature measurements. We also studied and confirmed the low cytotoxicity of the LnCTF towards cells thereby opening prospects for future in vivo applications. This work thus highlights a new application of LnCTF materials as ratiometric luminescent molecular thermometers with excellent sensitivity in the physiological temperature range.

Automated summary

This study synthesized a highly crystalline bipyridine-based CTF with lanthanide ions tethered onto it, resulting in a ratiometric luminescent thermometer with excellent sensitivity in the physiological temperature range. The thermometer shows a linear response in the solid state over a wide temperature range with high measurement accuracy. Additionally, the suspended material in water displays good temperature sensitivity, making it valuable for monitoring biological and biochemical systems with low cytotoxicity towards cells, indicating potential for future in vivo applications.