Correction to: Functionalized microneedles for continuous glucose monitoring

“…In contrast, solid microneedle patches can utilize their large surface area for direct contact with body fluids, and microneedle patches coated with a conductive layer can be used directly as effective electrodes for continuous glucose monitoring by electrochemical methods. 106 Dervisevic et al investigated a three-electrode system consisting of high-density silicon microneedles for painless monitoring of glucose in skin interstitial fluid. The high-density silicon microneedles were fabricated by UV lithography and deep reactive ion etching on crystalline silicon wafers, which were later attached to the surface of a 3D printed scaffold to form bare electrodes.…”

Recent advances in glucose-oxidase-based nanocomposites for diabetes diagnosis and treatment

“…In contrast, solid microneedle patches can utilize their large surface area for direct contact with body fluids, and microneedle patches coated with a conductive layer can be used directly as effective electrodes for continuous glucose monitoring by electrochemical methods. 106 Dervisevic et al investigated a three-electrode system consisting of high-density silicon microneedles for painless monitoring of glucose in skin interstitial fluid. The high-density silicon microneedles were fabricated by UV lithography and deep reactive ion etching on crystalline silicon wafers, which were later attached to the surface of a 3D printed scaffold to form bare electrodes.…”

Recent advances in glucose-oxidase-based nanocomposites for diabetes diagnosis and treatment

Hydrogel‐Forming Microneedles: Current Advancements and Future Trends