The goal of this project is to develop a liquid crystal spatial light modulator (SLM) that covers the range from the ultraviolet to the infrared that is suitable for use in modulating light in the attosecond regime. Commercial SLMs are primarily for use in the near-ir and the visible from 1600 nm to 430 nm. They use ITO as the electrode material that has a high absorption in the uv and the infrared. In order to satisfy our requirement, we tested both TiW and nanorod ITO as replacement of ITO as the electrode material. TiW was deposited onto the substrate by DC sputtering. For nanorod ITO we used e-gun deposition. In both cases the deposition parameters were optimized to vary the thickness and resistivity of the thin film electrode for the most suitable performance. For the alignment layer suitable materials include Nissan 130B, MAP, DMOAP and Fe2O3. We fabricated a number of devices and compared their performance as SLM in the uv and the ir. We find that in the uv the performance of the devices degrade with time although the overall device transmission is greater than 80%. Lifetime tests were done at 355 nm to obtain a connection between the lifetime and the beam size as well as the incident intensity of the uv light.