Extremely high negative electron affinity of diamond via magnesium adsorption

Extremely high negative electron affinity of diamond via magnesium adsorption

We report large negative electron affinity (NEA) on diamond (100) using magnesium adsorption on a previously oxygen-terminated surface. The measured NEA is up to (-2.01±0.05) eV, the largest reported negative electron affinity to date. Despite the expected close relationship between the surface chem...

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Bibliographic Details
Main Authors: O'Donnell, Kane, Edmonds, M., Tadich, A., Thomsen, L., Stacey, A., Schenk, A., Pakes, C., Ley, L.
Format: Journal Article
Published: American Physical Society 2015
Online Access:http://hdl.handle.net/20.500.11937/20063
Description
Summary:We report large negative electron affinity (NEA) on diamond (100) using magnesium adsorption on a previously oxygen-terminated surface. The measured NEA is up to (-2.01±0.05) eV, the largest reported negative electron affinity to date. Despite the expected close relationship between the surface chemistry of Mg and Li species on oxygen-terminated diamond, we observe differences in the adsorption properties between the two. Most importantly, a high-temperature annealing step is not required to activate the Mg-adsorbed surface to a state of negative electron affinity. Diamond surfaces prepared by this procedure continue to possess negative electron affinity after exposure to high temperatures, air, and even immersion in water.

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