SNO+ is a multipurpose neutrino detector located in 2 km underground in Sudbury, Canada. The experiment is taking data and the first results from water phase on invisible nucleon decay search and solar neutrino analysis is presented. The ultra-pure water inside the detector is currently being replaced by liquid scintillator, which will then be loaded with $^{130}$Te to provide high sensitivity for neutrinoless double beta decay search starting next year. Further substantial improvements to the sensitivity could be achieved in an economical and straightforward manner by increasing the loading. The nature of the tellurium loading technique, projected 0νββ sensitivities and future prospects will also be presented.