摘要
纳米材料作为材料科学的重要部分,已发展成为一门高度交叉的综合科学技术,不断为化学学科带来了更多的可能.在简要概述纳米传感技术的基本概念、方法及原理的同时介绍了利用纳米传感器YVO4∶Eu3+探测酒精浓度,及而后发展的通用型气体传感器,利用光纳米传感器检测离子和生物探针传感器等相关研究结果并对纳米传感进行了展望.
Nanomaterial is an important part of material sciences, which has become a highly integrated science, bringing continuous opportunities to chemistry. This paper simply describes the concepts, methods and principles of nano-sensing technology, introduces some relevant research results including cataluminescence nano-sensor on YVO4:Eu3+, general gas nano-sensors, optical nano-sensors and biocatalysis nano-sensors, and forecasts the prospect of nano-sensor.
出处
《甘肃高师学报》
2016年第9期15-19,共5页
Journal of Gansu Normal Colleges
基金
大学生创新计划"酸性锆基复合氧化物整体式催化剂低温NH3-SCR性能研究"(201510611278)
