Abstract
Marine-derived proteins, rich in amino acids and bioactivity, serve as a natural and safe alternative to chemical haircare products. This study selected three highly bioactive fish-derived protein peptides and determined their optimal repair ratio using FTIR structural analysis and response surface methodology (RSM). A collagen peptide-based composite human hair repair emulsion (CHFRE) was formulated, and its repair efficacy on damaged hair (DH) was evaluated using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR), differential scanning calorimetry (DSC), and amino acid analysis. Following CHFRE treatment, the physical and chemical properties of damaged hair improved significantly. SEM analysis revealed enhanced hair luster, aligned cuticle scales, and a denser cortex. FTIR and DSC analyses showed a 5.94% increase in α-conformation content and a 28.44% rise in relative helical content (RHC), indicating enhanced protein stability and a conformation closer to that of normal hair. Additionally, the 14.63% increase in S=O transmittance suggested reduced oxidative damage. Amino acid analysis and hydrophobic amino acids, with specific increments of 16.77 g/100 g and 2.47 g/100 g, respectively, enhance hair affinity and keratin stability. This bio-based repair material effectively restores damaged hair structure, strengthens resistance to chemical damage, and ensures sustainability, safety, and biocompatibility, providing a promising approach for the development of natural hair repair products.