Random lasers have abundant inherent advantages compared to conventional lasers such as flexibility, size, cost, simple design, and mass production. It has been the hot research topic in recent decades. An integrated random laser label with transferability, flexibility and temperature sensing is created and demonstrated in this work. The ultrathin stick-type random laser (USRL) can not only function stably under 100% strain with at least 500 times test but could also be easily transferred on arbitrary substrates disregard the material is rigid, flexible, non-planar or rough. In addition to features mentioned above, random laser signals could be stimulated and controlled repetitively within human body temperature. This shows great potential that the USRL can serve as photonics modules for further advanced developments of a variety of applications covering many different fields.