Many irreversible misfolding of peptides or proteins may be related to some severe diseases. Human islet amyloid polypeptide (hIAPP), a 37-amino acid residue peptide hormone, is prone to aggregate and form highly ordered amyloid fibrils. The deposit of hIAPP amyloid fibrils found outside the pancreatic β-cells of patients with type 2 diabetes is considered to be closely related to β-cell apoptosis. Thioflavin T (ThT) is a general fluorescent probe used to detect amyloid fibril formation. However, the fluorescence emission range of ThT overlaps the autofluorescence from biological matter in tissue. When the synthetic compounds or nanomaterials are used in the general inhibition effect tests, their own absorbance band may interfere with ThT and result in misjudge. That encourages us to synthesize a series of ThT derivatives to overcome these problems. We aim to modify these probes and force these probes to emit in the near-infrared (NIR) range. AmySP-4-Nap-Ene (maximum λem at 685 nm) is one of these synthetic probes and shows a significant fluorescence enhancement toward hIAPP amyloid fibrils. We found that the binding affinity of AmySP-4-Nap-Ene to hIAPP fibrils is better than that of ThT. Afterward, we observed the fluorescence of the probe upon binding to hIAPP fibrils by using the total internal reflection fluorescence microscope. This probe did not induce significant cytotoxicity when incubated with the rat insulinoma cell (INS-1) within 48 h. Preliminary test results indicate that this probe would be used in the detection of amyloid fibrils.