We present a simplistic single step synthesis and a detailed study of the remarkable room temperature gas sensing and photoluminescence (PL) properties of zinc oxide (ZnO) decorated graphene oxide sheets (GrO). Investigation of opto-electronic properties reveal near UV to blue PL and semiconducting behavior of ZnO-GrO sheets. ZnO nano-crystallites serve the dual purpose of acting as a nano-spacer between dried graphene sheets as well as a primary sensing transducer for the gas sensing applications. PL has been used as a tool to study the defects associated with the surface of the nanocrystallite's trap levels and/or acceptor-donor recombinations. Time-resolved PL was used to determine free carrier or exciton lifetimes, a vital parameter related to quality of composite and device performance. Results are presented for the detection of common industrial toxins like CO, NH3 and NO for concentrations as low as 1 ppm at room temperature. A large sensor response and quick recovery time was observed at room temperature with preferred selectivity towards electron donor gases like CO and NH3.
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机译:我们提出了一个简单的单步合成方法,并详细研究了氧化锌(ZnO)装饰的氧化石墨烯片(GrO)的显着室温气体传感和光致发光(PL)特性。对光电性质的研究揭示了ZnO-GrO片的近紫外至蓝色PL和半导体行为。ZnO纳米微晶具有双重用途,既可以作为干燥石墨烯片之间的纳米间隔物,也可以作为气体传感应用的主要传感换能器。PL已被用作研究与纳米晶捕获水平和/或受体-供体重组表面相关的缺陷的工具。时间分辨PL用于确定自由载流子或激子寿命,这是与复合材料质量和器件性能相关的重要参数。结果显示,在室温下,CO、NH3和NO等常见工业毒素的浓度低至1 ppm。在室温下观察到较大的传感器响应和快速恢复时间,对 CO 和 NH3 等电子供体气体具有优选的选择性。
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