Skin is the outermost and the largest organ of the mammals, and stratum corneum (SC) is the outermost tissue of the skin. There is not much research in the thermal properties of the SC. We use palmitic acid, cholesterol, and ceramide type IV (mass ratio of PA/CHOL/CER4(EOH)=1/1/2) to mimic the healthy SC lipid lamellae. The molten method is used to prepare the lipid mixtures. Use low-temperature differential scanning calorimetry (LTDSC) is used to analyze the equilibrium state of the lipid mixtures. Small angle X-ray scattering (SAXS), powder X-ray diffraction (PXRD) diffraction and hot stage optical microscopy (HSOM) are employed to study the phase transformation and nanostructures of the SC lipid blends. In this study, the morphology and thermal property differences between the lipid mixtures of the healthy SC and atopic dermatitis (AD, mass ratio of PA/CHOL/CER4(EOH)=1/1/1.13) are compared. Not only the lamellar structures are 9.5 nm and 9.3 nm, respectively, but also some structures change are observed in SAXS diffraction patterns. The packing of the healthy SC and AD lipid mixtures are hexagonal and orthorhombic phases, respectively. Thermal properties such as specific heat, conductivity and heat of fusion of the health SC and AD lipid mixtures are determined by temperature-history method. Apparently, the role of SC is not for thermal regulation, because of the relatively values of specific heat (3.23±0.14 kJ kg-1K-1), heat conductivity (0.226±0.087 Wm-1K-1), and latent heat (kJ kg-1). The large area of the SC and hairless skin surface mainly are for the sense of touch. The melting point of 66oC prevents SC of early human from melting in Africa of 50oC. The specific heat of AD lipid mixtures is larger than the healthy SC lipid mixtures, and it is one of the reasons of the sensitivity and exacerbation of the AD patients in cold weather.