MoS₂ is a layered material which is abundant and non-toxic and has been increasingly studied during the last few years as a semiconducting alternative to graphene. While most studies have been performed on single MoS₂ nanosheets, for example to demonstrate high-performance electronic transistors, more work is needed to explore the use of MoS₂ in printed electronics. The importance of using MoS₂ as a printed electronic material could be understood by considering the several orders higher electron mobility in MoS₂, even in several nanometer thick layers, compared to the organic and other materials used today. In the few studies performed so far on printing MoS₂, the developed dispersions used mainly organic solvents that might be detrimental for the environment. Here, we show an environmentally friendly liquid-based exfoliation method in water where the solution was stabilized by sodium dodecyl sulfate (SDS) surfactant. The dispersions consisted of very thin MoS₂ nanosheets with average lateral size of about 150 nm, surface tension of 28 mN m⁻¹, and a shelf life of a year. Although both the concentration and viscosity was less than optimal, we were able to inkjet print the MoS₂ solution on paper and on PET films, using multiple printing passes. By tuning the concentration/viscosity, this approach might lead to an environmentally friendly MoS₂ ink suitable for printed electronics.