▎ 摘　　要

NOVELTY - Stress engineering for continuously adjusting properties of target material comprises (1) placing the nano-container on the platform of the mechanism that can provide uniaxial pressure, where the extension direction of the nano-container is parallel to the platform, (2) inserting the target material into the interlayer of the nano container, (3) applying pressure on the composite of the nano container and target material for compression, so that the stress on the target material exceeds the predetermined stress, (4) introducing molecular springs into the nano-container to connect the inner or outer walls of the nano-container, (5) removing the external pressure, and adjusting the properties of the target material. USE - The method is useful for stress engineering to continuously adjusts properties of target material. ADVANTAGE - The method realizes adjustment of the properties of the target material by removing the external pressure, continuously and precisely changes stress imposed on the material by the nano-container, continuously and accurately adjusts energy level and energy gap of the material, and has wide application range, and convenient and simple operation. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for stress engineering method for continuously regulating the properties of ferrocene, comprising (A) placing single crystal graphite or directional cracking graphite crystal face in parallel on the platform of the mechanism that provide uniaxial pressure, and applying predetermined pressure, (B) circulating the oxidizing solution through single crystal graphite or directional cracking graphite to oxidize into graphene oxide, (C) circulating the toluene solution of ferrocene through the graphene oxide, and increasing the pressure to 0-10000 times the predetermined pressure, (D) circulating the mixed solution of 1,2-dichloroethane, 4-dimethylaminopyridine and N,N-dimethylformamide through graphene oxide, circulating the mixed solution of 2-phenyl-1,3-propanediol and sodium dithionite through the graphene oxide at 85-95℃, and (E) removing the external pressure to realize the adjustment of the properties of ferrocene.