Au-Fe3O4 dumbbell-like nanoparticles based lateral flow immunoassay for colorimetric and photothermal dual-mode detection of SARS-CoV-2 spike protein

Lateral flow immunoassay (LFIA) has become popular in laboratories, at-home testing, and medical diagnostics due to its minimal cost and user-friendliness. Nevertheless, conventional test strips of based on colloidal gold can only obtain qualitative or semi-quantitative results with low sensitivity. In this work, Au-Fe3O4 dumbbell-like nanoparticles were synthesized and used as the LFIA labelling maker for highly sensitive colorimetric-photothermal dual-mode detection of SARS-COV-2 spike(S) protein. The unique dumbbell structure of Au-Fe3O4 NPs makes it possible to combine the best features of both Au NPs and Fe3O4 NPs. The increased surface area of these NPs enhances their LSPR effect and photothermal effect, which achieves signal amplification to increase sensitivity. The Au- Fe3O4 NPs modified with S protein antibody could identify S protein in samples, which were recognized and accumulated on T-line by another antibody, generating color band for qualitative colorimetric detection. The T-line was irradiated by laser to obtain temperature change for quantitative detection of photothermal. In optimized conditions, the detection limit was 1.22 pg/mL, three orders of magnitude more sensitive than colorimetric detection. Finally, the approach was performed on SARS-COV-2 pseudovirus samples and outperformed traditional colloidal gold strips. This LFIA platform exhibits significant promise for practical implementation, as it can satisfy the need for low-cost, high-sensitivity, and home-based quantitative detection for respiratory infectious diseases.