"Surface" is the interface where the solid material interacts with the surroundings. It only occupies the outermost thin film of the sample with the strongest reaction to environmental factors, such as temperature, wet/dry etching, and light. As the outermost layer of the material, different material properties cause various interactions between the specimen and the external atmosphere. To understand the changes that occur at the outermost surface of the material, in this study, we will use X-ray photoelectron spectroscopy (XPS) to examine the surface layer and subsurface layer of the semiconductor thin films. XPS equipped with Ultraviolet photoelectron spectroscopy (UPS) and low energy inverse photoelectron spectroscopy (LEIPS) that have also been used for investigating the band structure information of the materials in the same ultra-high vacuum condition. In addition, a controllable gas cluster ion beam (GCIB) system is installed on XPS system to investigate the sputtering behavior and elemental depth profiles of various semiconductor materials. The hard X-ray photoelectron spectroscopy (HAXPES) is used to detect high entropy alloy for precise composition study without Auger signal interference. This nondestructive analysis technique provides a way to investigate interfacial layer without chemical damage caused by sputtering.