Effect of butanol and salt concentration on solid-state nanopores resistance

Vega, M.; Perez, Maximiliano Sebastian; Granell, Pablo Nicolás; Golmar, Federico; Wloka, C.; Maglia, G.; Dieguez, M.J.; Del Valle, E.M.; Lasorsa, Carlos Alberto; Lerner, Betiana

info:eu-repo/semantics/article

Fecha

2016-09

Registro en:

Vega, M.; Perez, Maximiliano Sebastian; Granell, Pablo Nicolás; Golmar, Federico; Wloka, C.; et al.; Effect of butanol and salt concentration on solid-state nanopores resistance; Cogent OA; Cogent Chemistry; 2; 532; 9-2016; 1-9

2331-2009

http://hdl.handle.net/11336/115756

CONICET Digital

CONICET

https://repositorioslatinoamericanos.uchile.cl/handle/2250/4380207

Autor

Vega, M.

Perez, Maximiliano Sebastian

Granell, Pablo Nicolás

Golmar, Federico

Wloka, C.

Maglia, G.

Dieguez, M.J.

Del Valle, E.M.

Lasorsa, Carlos Alberto

Lerner, Betiana

Institución

Consejo Nacional de Investigaciones Científicas y Tecnológicas (Argentina)

Resumen

The objective of this study was to demonstrate the possibility of using 1-butanol to detect in a reliable way the open pore current of pyramidal solid-state nanopores produced in silicon wafers. The nanopores were produced through controlled pore formation by neutralizing an etchant (KOH) with a strong acid (HCl). Since nanopores produced by this method have a larger depth than those made in nanometer thick membranes, they behave as nanochannels. As a consequence, the open pore current detection is more challenging. Thus, we report that low amounts of butanol considerably aid in the detection of the open pore current of nanopores.

Materias

SOLID STATE NANOPORES

SILICON WAFER

RESISTANCE

BUTANOL

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