β-amyloid（Aβ）was believed to cause the prime factor of Alzheimer’s disease. However, the mechanism of the cytotoxicity and the disease caused by Aβ is still unclear. The objective of this work is to study the interactions of various incubation time of Aβ with designed liposomes. The objectives were achieved by the following studies : First at all, the adsorption kinetics behaviors of Aβ on lipid monolayers were studied by NIMA trough. Secondly, surface plasmon resonance (SPR) and isothermal titration microcalorimetry (ITC) to measure the kinetics and binding enthalpy of the interactions between Aβ and various composition liposomes. The morphology of liposome before and after interaction with Aβ were monitored by atomic force microscopy (AFM). Results from lipid monolayer trough studies showed that the rate of Aβ adsorbed onto lipid monolayer is mainly due to the electrostatic effect, and the structural rearrangements of the adsorbed Aβ is sensitive to the lipid monolayer composition. Kinetics of Aβ adsorption onto the liposomes by SPR reveal also that the driving force of fresh Aβ interacts with various liposomes is electrostatic interactions. Fresh and monomer type of Aβ is shown to have higher affinities for GM1 containing liposome than that of aggregated Aβ. Addition of cholesterol to the liposome could alter membrane fluidity and promote the fresh Aβ in solution to interact with Aβ onto the membrane. The binding enthalpies between fresh Aβ and liposomes measured by ITC are exothermic reactions and are contributed to the electrostatic interaction. The effects of peptide/lipid molar ratio(P/L) on the binding enthalpy were also discuss. In general, the binding enthalpy become less exothermic as P/L ratio increase, and the transition happens in lower P/L ratio for charged lipid.