Designing multifunctional chemical sensors using Ni and Cu doped carbon nanotubes

A. Rubio; D. J. Mowbray; J. M. Garcia-Lastra; K. S. Thygesen; K. W. Jacobsen

arxiv: 1004.5334 · v1 · pith:2JQ3P2J6new · submitted 2010-04-29 · ❄️ cond-mat.mes-hall

Designing multifunctional chemical sensors using Ni and Cu doped carbon nanotubes

D. J. Mowbray , J. M. Garcia-Lastra , K. S. Thygesen , A. Rubio , K. W. Jacobsen This is my paper

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keywords multifunctionalcarbonchemicaldopednanotubessensorsensorsadsorption

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We demonstrate a "bottom up" approach to the computational design of a multifunctional chemical sensor. General techniques are employed for describing the adsorption coverage and resistance properties of the sensor based on density functional theory (DFT) and non-equilibrium Green's function methodologies (NEGF), respectively. Specifically, we show how Ni and Cu doped metallic (6,6) single-walled carbon nanotubes (SWNTs) may work as effective multifunctional sensors for both CO and NH3.

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Designing multifunctional chemical sensors using Ni and Cu doped carbon nanotubes

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