As an emerging material of layered metal dichalcogenides (LMDs), tin disulfide (SnS2) has huge potentials in visible-light detectors and photovoltaic devices due to its 2.0-2.6eV band gap. However, its photoresponsive characteristic is still relative rarely investigated compared to other LMDs, such as MoS2. Herein, SnS2 nanoflakes are synthesized by a facile and fruitful hydrothermal method, and photoresponsive characteristics are investigated. At first detailed phase structure, morphology and constitution are characterized. This SnS2 is flake-like with a mean diameter of500nm, and the atomic ratio of Sn to S is 1:2.1. Furthermore, prototype photodetectors are fabricated and characterized to explore photoresponsive characteristics of these SnS2 nanoflakes. The results show that SnS2 nanoflakes have excellently stable and repeatable photoresponse property to 532nm and 405nm incidents. In particular, it reveals a fast response time of 7.3ms to the 405nm incident, which enables SnS2 nanoflakes promising candidate for photodetectors.