Inkjet printing based ultra-small MnO2 nanosheets synthesis for glutathione sensing

Manganese dioxide (MnO2) with small size is competent in sensing applications, but its synthesis generally adopts templates or in complex ways. Inkjet printing technique with excellent performance offers a versatile tool due to its stability, flexibility, economy. Herein, an inkjet printing method was developed for rapid synthesis of ultra-small MnO2 nanosheets. The findings validated the feasibility of inkjet printing method for MnO2 nanosheets synthesis and achieved the demand of small size and facile mode. Additionally, the limit of detection (LOD) of ultra-small MnO2 nanosheets in glutathione (GSH) sensing achieved 0.26 mu M, which was about 40% more sensitive than that of the typical MnO2 nanosheets, enabling the establishment of a rapid and efficient modality for sensitive and selective GSH sensing. By virtue of the inkjet printing approach, the ultra-small MnO2 nanosheets was obtained in a short time without complicated fabricating process. It can be foreseen that the proposed inkjet printing approach would facilitate the application prospects of ultra-small MnO2 nanosheets in diverse fields. Such a facile approach may open new avenues for synthesis of ultra-small or ultrafine nanomaterials.

Automated summary

Inkjet printing technique was used for rapid synthesis of ultra-small MnO2 nanosheets, demonstrating higher sensitivity in glutathione sensing. This versatile tool offers stability, flexibility, and economy, indicating potential for diverse applications in different fields.