Developing flexible actuators with high transport efficiency is of great significance for the emerging applications of micro-robots in various industrial and biomedical environments.Despite recent advancements have en...Developing flexible actuators with high transport efficiency is of great significance for the emerging applications of micro-robots in various industrial and biomedical environments.Despite recent advancements have enabled soft materials to achieve complex functionalities unattainable by traditional rigid robots,achieving high-speed transport performance for solid particles remains a significant challenge.Magnetic materials,as an integral component of scientific applications,have demonstrated substantial potential in areas such as biological imaging,catalysis,and energy storage.Inspired by the flexible,soft,and elastic microciliary structures of many organisms,a soft actuator decorated with magnetic microcilia was reported.This soft magnetic microciliary actuator achieves high speed(50 mm s^(-1))transport of solid microspheres by means of magnetic field regulate their surface morphology.Overcoming the limitations of prior studies in which the speed of motion was constrained to a few millimeters per second due to hysteresis effects,this work represents a significant advancement in the emerging field of biomimetic flexible actuators and holds promise in various applications.展开更多
Two types of polymeric surfactants, PEG300 and PVP40000, were used for the preparation of magnetic ferrite MFe2O4 (M- Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type ef...Two types of polymeric surfactants, PEG300 and PVP40000, were used for the preparation of magnetic ferrite MFe2O4 (M- Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type effect on the size evolution of various nanoparticles was investigated. It was found that Fe3O4 nanoparticles exhibited higher crystalinity and size evolution than MnFe2O4 nanoparticles with use of the two surfactants. It is proposed that this observation is due to fewer tendencies of surfactants on the surface of Fe3O4 building blocks nanoparticles than MnFe2O4. Less amounts of surfactant or capping agent on the surface of nanoparticles lead to the higher crystalibity and larger size. It is also suggested that the type of spinel (normal or inverted spinel) plays a key role on the affinity of the polymeric surfactant on the surface of building blocks.展开更多
基金financially supported by the National Natural Science Foundation of China(Nos.22105014 and 52472293)the China Postdoctoral Science Foundation(Nos.2020M680296 and 2022T150035)+3 种基金the High-level Talent Project of Shenyang Ligong University(Nos.1010147001302)the Special fund of Basic Scientific Research Expenses for Undergraduate Universities in Liaoning Province(Nos.LJ212410144077 and LJ212410144072)Beijing Young Talent Support Program,the 111 Projectthe Fundamental Research Funds for the Central Universities
文摘Developing flexible actuators with high transport efficiency is of great significance for the emerging applications of micro-robots in various industrial and biomedical environments.Despite recent advancements have enabled soft materials to achieve complex functionalities unattainable by traditional rigid robots,achieving high-speed transport performance for solid particles remains a significant challenge.Magnetic materials,as an integral component of scientific applications,have demonstrated substantial potential in areas such as biological imaging,catalysis,and energy storage.Inspired by the flexible,soft,and elastic microciliary structures of many organisms,a soft actuator decorated with magnetic microcilia was reported.This soft magnetic microciliary actuator achieves high speed(50 mm s^(-1))transport of solid microspheres by means of magnetic field regulate their surface morphology.Overcoming the limitations of prior studies in which the speed of motion was constrained to a few millimeters per second due to hysteresis effects,this work represents a significant advancement in the emerging field of biomimetic flexible actuators and holds promise in various applications.
文摘Two types of polymeric surfactants, PEG300 and PVP40000, were used for the preparation of magnetic ferrite MFe2O4 (M- Mn, Fe) colloidal nanocrystals using a solvothermal reaction method. The effect of spinel type effect on the size evolution of various nanoparticles was investigated. It was found that Fe3O4 nanoparticles exhibited higher crystalinity and size evolution than MnFe2O4 nanoparticles with use of the two surfactants. It is proposed that this observation is due to fewer tendencies of surfactants on the surface of Fe3O4 building blocks nanoparticles than MnFe2O4. Less amounts of surfactant or capping agent on the surface of nanoparticles lead to the higher crystalibity and larger size. It is also suggested that the type of spinel (normal or inverted spinel) plays a key role on the affinity of the polymeric surfactant on the surface of building blocks.
