Hierarchical porous patterns have been fabricated on the C face,Si face,and cross section of n-type 6H—SiC crystal via photo-electrochemical etching using HF/C_2H_5OH and HF/H_2O_2 as electrolytes.The porous layer displayed multiple and multiscale microstructures on different faces,including stalactite-like,sponge-like and dendritic porous structures on C face,echinoid micro-patterns on Si face,and columnar and keel-shaped micro-patterns on the cross section.The formation of hierarchical porous pattern is ascribed to the dynamic competition balance between the electrochemical oxidation rate and the oxide removal rate.It was found that increasing the ionic strength of the electrolyte can obviously disturb the surface morphology of the porous SiC during the photo-electrochemical etching.Possible mechanisms for selective etching were further discussed. Hierarchical porous patterns have been fabricated on the C face, Si face, and cross section of n-type 6H-SiC crystal via photo-electrochemical etching using HF / C_2H_5OH and HF / H_2O_2 as electrolytes. The porous layer shows multiple and multiscale microstructures on different faces, including stalactite-like, sponge-like and dendritic porous structures on C face, echinoid micro-patterns on Si face, and columnar and keel-shaped micro-patterns on the cross section. The formation of hierarchical porous pattern is ascribed to the dynamic competition balance between the electrochemical oxidation rate and the oxide removal rate. It was found that increasing the ionic strength of the electrolyte can obviously disturb the surface morphology of the porous SiC during the photo-electrochemical etching. Potential mechanisms for selective etching was further discussed.