摘要
活性物质是典型的非平衡态系统,其组成单元能够利用自身存储的能量或者周围环境的能量实现自驱动.在活性系统中,物体间的受力情况直接影响其结构和动力学行为,因此深入了解物体间的有效作用力是理解活性物质一切复杂现象的基础.本文通过光镊显微镜实验分别研究了活性大肠杆菌溶液中惰性球形聚苯乙烯胶体粒子间和板状粒子间的有效作用力,发现球形粒子间有效作用力的性质一直是短程排斥力,而板状粒子间的有效作用力则为长程吸引力,这说明惰性粒子间的有效作用力受粒子形状的影响.惰性粒子间的有效作用力主要来源于两部分的贡献,即细菌-惰性粒子间的直接碰撞,以及细菌运动产生的流场.在实验上通过对比粒子之间、粒子外侧细菌的浓度和取向有序性发现,球形粒子间的有效排斥力主要来源于细菌-粒子的直接碰撞,而板状粒子间的长程吸引力则主要源于细菌流场的贡献.本文通过光镊显微镜实验证明了惰性粒子间的有效作用力与惰性粒子的几何构型有关,为调控活性物质中的动态自组装提供了实验支撑.
Abstract
In active matter,the effective force between passive objects is crucial for their structure and dynamics,which is the basis for understanding the complex behaviors within active systems.Unlike equilibrium states,the factors such as the surface configuration,size,and confinement strength significantly influence the effective forces between passive particles.Previous studies have shown that the shapes of passive particles affect the aggregation of active particles,leading to different forces experienced by passive particles with different shapes.However,recently,a long-range attractive force between passive platelike particles,caused by the bacterial flow field instead of the direct bacterium-plate collisions in active bacterial suspensions,has been found.This raises an intriguing question:how does hydrodynamics affect the forces on passive particles of different shapes in different ways?In this work,we investigate the effective forces exerted on passive spherical and plate-like particles immersed in bacterial suspensions by optical-tweezers experiments.The effective force between passive particles can be calculated from the formula,Feff=k<∆d>/2<∆d>,where represents the difference in distance between the passive particles in the bacterial bath and those in the solution without bacteria,k is the effective stiffness of optical traps.The Feff>0 indicates a repulsive force between passive particles,and the Feff<0 represents an effective attractive force between passive particles.Our results demonstrate that the passive spherical particles experience short-range repulsion,while plate-like particles are subjected to long-range attraction.This highlights the substantial effect of particle shape on their effective forces. The forces on passive particles are mainly attributed to two factors:direct bacterium-particle collisions and the bacterial flow field.The analysis of the bacterial concentration and orientation distribution around passive particles reveals that for spherical particles,the concentration of bacteria between particles is higher than that outside the particles,but there is almost no difference in the orientation order between bacteria inside and outside the particles.This suggests that the effective repulsion between spherical particles is mainly due to the direct bacterial collisions.Conversely,for plate-like particles,the long-range attraction is primarily influenced by the bacterial flow field rather than their direct collisions,which is evidenced by the higher bacterial density and orientation order inside the two plates compared with those outside the two plates.This study provides strong evidence that the effective force between passive particles is shape dependent in active bath,and offers new insights into controlling active-directed assembly.
基金项目
国家自然科学基金(12304245)
国家自然科学基金(12374205)
国家自然科学基金(12074406)
油气资源与工程全国重点实验室定向课题(PRE/DX-2407)
北京凝聚态物理国家研究中心开放课题面上基金(2023BNLCMPKF014)
中国石油大学(北京)科研基金(2462023YJRC031)
国家科技期刊平台
NSTL
万方数据