In recent years, robots used for targeted drug delivery in the stomach have received extensive attention. Inspired by tumbleweeds, we have designed a dual-responsive soft robot based on poly(N‑isopropylacrylamide) and...In recent years, robots used for targeted drug delivery in the stomach have received extensive attention. Inspired by tumbleweeds, we have designed a dual-responsive soft robot based on poly(N‑isopropylacrylamide) and MoS_(2). Under the action of an adjustable magnetic field, it can achieve steady motion at a frequency that allows it to move up to 35 mm/s, demonstrating high flexibility and controllability. It can also roll along a predetermined path, traverse mazes, climb over obstacles, among other functions. In addition, by harnessing the photothermal conversion effect of MoS_(2), the robot can be opened and closed using light, enabling controlled drug release. Targeted drug delivery is achieved in a gastric model using our designed soft robot, marking a significant clinical advancement expected to revolutionize future medical treatments and enhance the efficacy of drug therapy.展开更多
基金the financial support through National Natural Science Foundation of China(Project No.62273289)The Youth Innovation Science and Technology Support Program of Shandong Province(Project No.2022KJ274)+1 种基金Shandong Provincial Natural Science Foundation(ZR2024MF007)Graduate Innovation Foundation of Yantai University,GIFYTU.
文摘In recent years, robots used for targeted drug delivery in the stomach have received extensive attention. Inspired by tumbleweeds, we have designed a dual-responsive soft robot based on poly(N‑isopropylacrylamide) and MoS_(2). Under the action of an adjustable magnetic field, it can achieve steady motion at a frequency that allows it to move up to 35 mm/s, demonstrating high flexibility and controllability. It can also roll along a predetermined path, traverse mazes, climb over obstacles, among other functions. In addition, by harnessing the photothermal conversion effect of MoS_(2), the robot can be opened and closed using light, enabling controlled drug release. Targeted drug delivery is achieved in a gastric model using our designed soft robot, marking a significant clinical advancement expected to revolutionize future medical treatments and enhance the efficacy of drug therapy.
