As near-infrared (NIR) photothermal agents, copper sulfide nanoparticles (CuSNP) offer several advantages over plasmonic gold nanoparticles (GNP), the most widely used photothermal nanotransducers in biomedical applications. CuSNP exhibit strong optical absorption at NIR wavelengths (650–1100 nm) and convert it into heat due excitation of electronic transitions or plasmonic photoexcitation. In contrast with GNP, CuSNP are degradable, readily prepared, inexpensive to produce, efficiently cleared from the body and their photothermal efficiency is less sensitive to the dielectric constant of the surrounding medium. We explored the feasibility of CuSNP to function as degradable NIR nanotransducers within fibrin-based cellular scaffolds, paying great attention to the stability and photothermal efficiency of the composite. We tested