Protein stacking on the APTES-functionalized pyrochlore ▫$Bi_2Ru_2O_7$▫ clusters for ultrasensitive and selective immunosensingTasić, Nikola (Avtor) Vranešič, Nika (Avtor) Metarapi, Dino (Avtor) Mervič, Kristina (Avtor) Žunić, Milan (Avtor) Dapčević, Aleksandra (Avtor) Finšgar, Matjaž (Avtor) Hočevar, Samo B. (Avtor) Bi2Ru2O7 pyrochloreAPTESSARS-CoV-2spike proteinimmunosensorselectrochemicalWith their unique physicochemical properties, such as metallic-like conductivity, favorable (electro)catalytic properties, electrochemical stability, and ease of functionalization, pyrochlores have found applications in various fields such as solid oxide fuel cells, batteries, thick film resistors, and temperature sensors; however, there are no reports on their application in electrochemical immunosensing. In this study, we exploited the (electro)catalytic nature and stability of the pyrochlore Bi2Ru2O7 clusters silanized with (3-aminopropyl)triethoxysilane (APTES) to demonstrate their potential for the effective stacking of functional proteins. Characterization of the clusters by XPS disclosed a dual environment of Bi, also indicating the presence of Bi2O3 alongside APTES-Bi2Ru2O7 clusters and, importantly, the predominant involvement of pyrochlore moieties in subsequent protein stacking. After stacking protein A and antibodies, the immunosensor revealed a nearly interference-free operation, high sensitivity, a detection limit of 118 fM SARS-CoV-2 spike protein, and operation in a wide examined concentration range of 10−5−10−1 μg mL−1 with an r2 of 0.98. In combination with a short incubation time of 30 min, the pyrochlore-based immunosensor provides a solid platform for future point-of-need applications.American Chemical Society20252025-03-24 09:26:18Neznano21753UDK: 543.384ISSN pri članku: 1944-8252DOI: 10.1021/acsami.4c17869COBISS_ID: 228608771ACS applied materials & interfacessl© 2025 The Authors. Published by American Chemical Society