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Field emission microscopy of carbon nanotube fibers: Evaluating and interpreting spatial emission

Taha Y. Posos, Steven B. Fairchild, Jeongho Park, Sergey V. Baryshev

2020Journal of Vacuum Science & Technology B Nanotechnology and Microelectronics Materials Processing Measurement and Phenomena22 citationsDOIOpen Access PDF

Abstract

In this work, the authors quantify field emission properties of cathodes made from carbon nanotube (CNT) fibers. The cathodes were arranged in different configurations to determine the effect of cathode geometry on the emission properties. Various geometries were investigated including (1) flat cut fiber tip, (2) folded fiber, (3) looped fiber, and (4) fibers wound around a cylinder. The authors employ a custom field emission microscope to quantify I-V characteristics in combination with laterally resolved field-dependent electron emission area. Additionally, they look at the very early emission stages, first when a CNT fiber is turned on for the first time, which is then followed by multiple ramp-up/down runs. Upon the first turn on, all fibers demonstrated limited and discrete emission area. During ramping runs, all CNT fibers underwent multiple (minor and/or major) breakdowns, which improved emission properties in that turn-on field decreased and field enhancement factor and emission area both increased. It is proposed that breakdowns are responsible for removing initially undesirable emission sites caused by stray fibers higher than average. This initial breakdown process gives way to a larger emission area that is created when the CNT fiber subcomponents unfold and align with the electric field. The authors' results form the basis for careful evaluation of CNT fiber cathodes for dc or low frequency pulsed power systems in which large uniform area emission is required or for narrow beam high frequency applications in which high brightness is a must.

Topics & Concepts

Field electron emissionMaterials scienceCarbon nanotubeCathodeField emission displayBrightnessFiberOptoelectronicsOpticsField emission microscopyCathode rayNanotechnologyOptical fiberField (mathematics)Scanning electron microscopeNanolithographyLight emissionElectric fieldEmission spectrumStimulated emissionMicroscopeElectronMicroscopyEmission intensityCarbon Nanotubes in CompositesDiamond and Carbon-based Materials ResearchPulsed Power Technology Applications
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