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Polysilicon field emitters were micromachined on current limiting polysilicon resistors. Field emission data of the diode structures revealed a significant difference between phosphorous doped and intrinsic polysilicon tips, or surface emitters. Phosphorus doped polysilicon tip and surface emitters emit at similar fields, regardless of the degree of their sharpness. Similarly, intrinsic polysilicon tip and surface emitters emit at similar applied fields, regardless of the degree of their sharpness. This behavior is attributed to the surface morphology of the polysilicon after oxidation and…mehr

Produktbeschreibung
Polysilicon field emitters were micromachined on current limiting polysilicon resistors. Field emission data of the diode structures revealed a significant difference between phosphorous doped and intrinsic polysilicon tips, or surface emitters. Phosphorus doped polysilicon tip and surface emitters emit at similar fields, regardless of the degree of their sharpness. Similarly, intrinsic polysilicon tip and surface emitters emit at similar applied fields, regardless of the degree of their sharpness. This behavior is attributed to the surface morphology of the polysilicon after oxidation and plasma etch. Materials analysis suggest the formation of sharp ridges, possibly along the grain boundaries, on the emission surfaces that contributes to similar magnitude of field enhancement from the nano-scale structures on both the surface and sharp tip emitters.
Autorenporträt
Kris Vossough is the founder of Nano and Micro Technology Consultants, a consulting firm providing nanotechnology and MEMS support for entities ranging from early stage startups to large technology companies. He has performed R&D work on MEMS sensors and photonics for startup companies, along with research on superconductor and magnetic thin-films.