Polarization beam splitters are frequently used in optical systems. They can split propagating electromagnetic waves according to their polarizations. Their applications include wavelength division multiplexing (WDM) in optical communications, bio-chemical testing, optical microscopy, etc. With the rapid advancement of semiconductor process technology, nano-level optoelectronic devices become more popular due to their advantages of slimness and light-weigth. Among them, sub-wavelength dielectric gratings are attractive due to their excellent light-manipulating capability and relatively simple manufacturing. Recently, one-dimensional slanted gratings are adopted in augmented reality (AR), which shows their superior value, especially with the introduction of commercially available head-mounted display goggles. In this research, we use numerical simulation to design polarization beam splitters with high efficiency and extinction ratio, based on two-dimensional slanted gratings. The coupling efficiency can be more than 70%, the extinction ratio can be higher than 30 dB. Thereafter, we design high efficiency chromatic splitter based the 2D slanted gratings, which convert two central wavelengths of two polarizations into two directions, i.e., TE-1,0 and TE0,-1, transmitted diffractions, respectively. The coupling efficiency can be as high as 90% in optimized structures. We also design wavelength splitters with acceptable efficiency considering the easiness of process.