Humidity Sensitive Properties of Graphene Oxide Investigated by Quartz Crystal Microbalance
Hui Yao YuYing Long YaoXiaohua Wang
Abstract
Graphene oxide has been studied as sensing material for the humidity detection in this paper. At room temperature, graphene oxide was dissolved in water to prepare graphene oxide aqueous solution. This aqueous solution was distributed on the electrode surface of quartz crystal microbalance to form a thin film for humidity detection. The results of the experiment showed that the quartz crystal microbalance sensors with graphene oxide film have good response to the change of humidity. The maximum humidity sensitivity, during the humidity ranging from 10% to 90%RH (relative humidity), has achieved ~54Hz/%RH (relative humidity). The quartz crystal microbalance sensors with graphene oxide thin film have good stability and reproducibility properties. All results implied that the graphene oxide was a potential humidity sensing material for practical use.
Metrics
Citation History
Topics
Related Documents
Humidity sensitive properties of ZnO nanotetrapods investigated by a quartz crystal microbalance
Xiaohua WangYanfang DingJian ZhangZiqiang ZhuShuzhen YouShaoqiang ChenJianzhong Zhu
Ultra-highly sensitive humidity sensing by polydopamine/graphene oxide nanostructure on quartz crystal microbalance
Dongzhi ZhangXiaoshuang SongZhao WangHaonan Chen
A humidity sensor based on quartz crystal microbalance using graphene oxide as a sensitive layer
Hao JinXiang TaoBin FengLiyang YuDemiao WangShurong DongJikui Luo
Graphene oxide thin film coated quartz crystal microbalance for humidity detection
Yao YaoXiangdong ChenHuihui GuoZuquan Wu
Reduced graphene oxide-polyethylene oxide composite films for humidity sensing via quartz crystal microbalance
Si WangGuangzhong XieYuanjie SuLei SuQiuping ZhangHongfei DuHuiling TaiYadong Jiang