自驱动马达在复杂环境中的设计和介观模拟
发布时间:2018-09-04 12:07
【摘要】:基于泳机理自驱动的微/纳马达动力学现象十分丰富,相关理论研究属于软凝聚态、统计物理和纳米科技交叉学科新兴的前沿领域.对自驱动马达进行模型设计、探索马达与复杂环境相互作用,具有潜在的应用意义.本文首先介绍了一种高效的介观模拟方法——多粒子碰撞动力学基本方法,以及结合了分子动力学和化学反应的联合算法;接着简要描述了马达基于泳的自驱动机理,并简单回顾了马达数值模拟研究的相关进展;最后概述了应用多粒子碰撞动力学方法对自驱动马达研究的结果,包括广泛地建模与设计,以及马达与复杂活化环境相互作用动力学.
[Abstract]:The dynamics of micro / nano motors based on self-driving of swimming mechanism is very rich, and the related theoretical research belongs to the emerging frontier of soft condensed matter, statistical physics and nanotechnology. It has potential application significance to design the model of self-driving motor and explore the interaction between motor and complex environment. In this paper, an efficient mesoscopic simulation method, the basic method of multi-particle collision dynamics, and a combined algorithm combining molecular dynamics and chemical reaction are introduced, and then the self-driving mechanism of the motor based on swimming is briefly described. At last, the research results of multi-particle collision dynamics for self-actuated motors are summarized, including extensive modeling and design. And the interaction dynamics between motor and complex activation environment.
【作者单位】: 杭州电子科技大学物理系;中国科学院物理研究所;
【基金】:国家自然科学基金(11674048,11404379,11674365) 浙江省杰出青年科学基金(LR17A050001)资助
【分类号】:O64
本文编号:2222055
[Abstract]:The dynamics of micro / nano motors based on self-driving of swimming mechanism is very rich, and the related theoretical research belongs to the emerging frontier of soft condensed matter, statistical physics and nanotechnology. It has potential application significance to design the model of self-driving motor and explore the interaction between motor and complex environment. In this paper, an efficient mesoscopic simulation method, the basic method of multi-particle collision dynamics, and a combined algorithm combining molecular dynamics and chemical reaction are introduced, and then the self-driving mechanism of the motor based on swimming is briefly described. At last, the research results of multi-particle collision dynamics for self-actuated motors are summarized, including extensive modeling and design. And the interaction dynamics between motor and complex activation environment.
【作者单位】: 杭州电子科技大学物理系;中国科学院物理研究所;
【基金】:国家自然科学基金(11674048,11404379,11674365) 浙江省杰出青年科学基金(LR17A050001)资助
【分类号】:O64
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,本文编号:2222055
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