Single-walled carbon nanotube thermionic electron emitters with dense, efficient and reproducible electron emission

Citation:

Wang Y, Wu G, Xiang L, Xiao M, Li Z, Gao S, Chen Q, Wei X*. Single-walled carbon nanotube thermionic electron emitters with dense, efficient and reproducible electron emission. Nanoscale [Internet]. 2017;9:17814 - 17820.

摘要:

Thermionic electron emitters have recently been scaled down to the microscale using microfabrication technologies and graphene as the filament. While possessing several advantages over field emitters, graphene-based thermionic micro-emitters still exhibit low emission current density and efficiency. Here, we report nanoscale thermionic electron emitters (NTEEs) fabricated using microfabrication technologies and single-walled carbon nanotubes (SWCNTs), the thinnest conducting filament we can use. The SWCNT NTEEs exhibit an emission current density as high as 0.45 × 105 A cm−2, which is superior to that of traditional thermionic emitters and five orders of magnitude higher than that of graphene-based thermionic emitters. The emission characteristics of SWCNT NTEEs are found to strongly depend on the electrical properties of the SWCNTs, with metallic SWCNT NTEEs showing a substantially lower turn-on voltage and more reproducible emission performances than those based on semiconducting SWCNTs. Our results indicate that SWCNT NTEEs are promising for electron source applications

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