关键词: 扫描电子显微镜, 一维纳米材料, 场发射性能

Abstract: This paper reports on methods and examples of in-situ field emission measurements of individual one-dimensional nanostructures based on scanning electron microscope (SEM) and nanoprobe techniques. In the experimental setup, tungsten (W) tips and nanostructures acted as electron-receivers and emitters, respectively, based on which systematic studies of individual MWCNTs and ZnO nanowires were realized. By combining real-time imaging, nanoprobe technique for precise nanomanipulation and electric measurement, and light input, experiments were performed to study the influences of the receiver-emitter distance, morphology variation, adsorbed gas molecules, and laser irradiation. Results demonstrate that when D << 3L (L is the length of nanostructures), the turn-on fields and threshold fields increase with the decreasing D, indicating degraded field emission property. Besides, the increased curvature radius of nanostructures results in reduced field enhancement factor and field emission property. In addition, desorption of oxygen molecules and laser radiation improve the field emission properties of nanostructures.

Key words: scanning electron microscope, one-dimensional nanostructures, field emission property