Abnormal changes in intracellular viscosity and cysteine are both associated with several important biological processes such as reversible redox reactions, which play a pivotal role in the process of inflammation. However, it remains unclear how cysteine and viscosity are altered in inflammation. Herein, we firstly report a high-sensitivity and -selectivity near-infrared imaging probe (FCV) for tracking intracellular viscosity and endogenous cysteine. This dual-functional probe displays excellent photostability and large Stokes shifts. FCV exhibits a 54-fold enhancement in fluorescence emission at 560 nm with increasing Cys (λ_ex = 420 nm) and an approximately 63-fold enhancement at 660 nm (λ_ex = 460 nm) with increasing viscosity from 1.0 cP to 952.5 cP. Moreover, FCV reveals the synergistic relationship between viscosity and cysteine in the inflammation model of living cells and zebrafish for the first time. Thus, FCV is a promising vehicle to identify the changes in Cys and viscosity in associated diseases.