介孔材料
化学
葡萄糖氧化酶
纳米技术
纳米结构
纳米壳
光热效应
杰纳斯
光热治疗
生物物理学
酶
催化作用
纳米颗粒
材料科学
生物化学
生物
作者
Mengli Liu,Liang Chen,Zaiwang Zhao,Minchao Liu,Tiancong Zhao,Yuzhu Ma,Qiaoyu Zhou,Yasseen S. Ibrahim,Ahmed A. Elzatahry,Xiaomin Li,Dongyuan Zhao
摘要
@Au domain enables the generation of the local thermal gradient under the NIR light irradiation, driving the nanomotor by thermophoresis. Taking advantage of the unique Janus nanostructure, the directions of the driving force induced by enzyme catalysis and the thermophoretic force induced by NIR photothermal effect are opposite. Therefore, with the NIR optical speed regulators, the glucose-driven nanomotors can achieve remote speed manipulation from 3.46 to 6.49 μm/s (9.9-18.5 body-length/s) at the fixed glucose concentration, even after covering with a biological tissue. As a proof of concept, the cellar uptake of the such mesoporous nanomotors can be remotely regulated (57.5-109 μg/mg), which offers great potential for designing smart active drug delivery systems based on the mesoporous frameworks of this novel nanomotor.
科研通智能强力驱动
Strongly Powered by AbleSci AI