The ultra-wide two dimensional Bi2S3 nanosheets (2D Bi2S3 Ns) as non-toxic graphene-like nanomaterials have been prepared through solvothermal decomposition of a single-source precursor, Bi(S2CNEt2)3, in ethylenediamine media for 2 h in 1808C. The morphology, structure, properties and catalytic activity of prepared 2D Bi2S3 Ns were characterized with XRD, field emission scanning electron microscopy (FESEM), transmission electron microscopy (TEM), UV-Visible spectroscopy, cyclic voltammetry (CV), amperometry, electrochemical charge/discharge technique and electrochemical impedance spectroscopy (EIS). The SEM image showed the 2D Bi2S3 Ns with a thickness of 15�4 nm and lengths of several micrometers is synthesized. The UV�Vis spectrum of 2D Bi2S3 Ns showed high sensitivity to visible-near infrared light with its direct energy band gap of �1.22 eV. These Bi2S3 Ns showed high electron transfer ability and good electrochemical behavior and also exhibited electrocatalytic activity toward the reduction-oxidation of hydrogen peroxide. It is found that Bi2S3 Ns could detect H2O2 at wide linear concentration range (50.0 mM–8.0 mM) with detection limit 8 mM, using amperometry as measuring technique. Also the synthesized Bi2S3 Ns exhibited excellent electrochemical H2 storage properties. As a result, based on above properties, the Bi2S3 Ns can be used as a valuable and useful nanomaterial for H2 storage, high-energy batteries, electrocatalytic fields and electrochemical sensing.
