The SoLid experiment has been conceived to give an unambiguous response to the hypothesis of a light sterile neutrino as the origin of the Reactor Antineutrino Anomaly. To this end, SoLid is searching for an oscillation pattern at short baselines (6-9 m) in the energy spectrum of the $\overline{\nu}_{e}$'s emitted by the SCK$\cdot$CEN BR2 reactor in Belgium. The detector uses a novel technology, combining PVT (cubes of 5$\times$5$\times$5 cm$^3$) and $^6$LiF:ZnS (sheets $\sim$ 250 $\mu$m thickness) scintillators. It is highly segmented (5 modules of 10 planes of 16$\times$16 cubes), and it's read out by a network of wavelength shifting fibers and SiPMs. The fine segmentation and the hybrid technology of the detector allows the clear identification of the neutrino signals, reducing significantly backgrounds. Thus, a high experimental sensitivity can be achieved. In this seminar I will discuss the status of SoLid.