Z-dol versus Z-tetraol: Bonding and durability in magnetic hard disk application

A component-level study has revealed that the durability of magnetic hard disks coated with Z-dol improved with increasing level of relative humidity, while the durability of disks coated with Z-tetraol was generally superior and not affected by the humidity within the range investigated (8 - 80%). It has been shown earlier that water molecules effectively passivate the catalytic centers responsible for the lubricant degradation. The Z-dol molecular chain has a hydroxyl group at each end, while the Z-tetraol molecular chain has two hydroxyl groups at each end. Having surmised that the superior performance of Z-tetraol can be ascribed to its ability to retain water molecules at its multiply hydroxylated ends, the solubility of water in Z-dol, Z-tetraol, and Z-TX were investigated using proton NMR spectroscopy. The study revealed that Z-tetraol is not only able to retain a much larger number of water molecules at its ends, but also is able to form stronger hydrogen bonds. Z-tetraol would then bond more tightly to the carbon overcoat ( via hydrogen bonding with the surface hydroxyl groups), and be more resistant against catalytic degradation owing to its affinity to, and retention of water molecules.