关键词: 介电泳力, 毛细作用力, 疏水(亲水)力, 血管支架, 载药纳米颗粒, 自装配, 车间布局和调度集成优化, 多目标果蝇优化算法, 混合步长的嗅觉搜索, 碳排放

Abstract: On the basis of comprehensively analyzing the fruits of self-assembly fields, some problems of the self-assembly method for application of the nano-particle 3D self-assembly are pointed out, and a new method which realizes the self-assembly of drug-loading nano-particles and stent by comprehensively applying the micro-forces such as dielectrophoretic force, capillary force, and hydrophobic force etc. is put forward. And many key technologies for implement of nano-particle and stent self-assembly are studied, including the self-assembly mechanism and method of using dielectrophoresis force and capillary force, the optimal design method of the stent, and the choice and making for nano-particles drug etc. In the end, the implement process workbench of self-assembly and the simulation results of electric field spatial layout are presented. The aforementioned research results provide the feasible scenario for the development of drug-loading nanoparticle coating stent ultimately.

Key words: Capillary force, Dielectrophoretic force, Drug-loaded nano-particle, Hydrophobic(hydrophilic) force, Self-assembly, Stent, integrated workshop layout and scheduling optimization, Multi-objective Fruit Fly Optimization Algorithm, smell search based on hybrid step, Carbon emissions