Artículos de revistas
An Open Pit Nanofluidic Tool: Localized Chemistry Assisted by Mesoporous Thin Film Infiltration
Fecha
2017-05Registro en:
Mercuri, Magalí; Pierpauli, Karina Alejandra; Berli, Claudio Luis Alberto; Bellino, Martin Gonzalo; An Open Pit Nanofluidic Tool: Localized Chemistry Assisted by Mesoporous Thin Film Infiltration; American Chemical Society; Acs Applied Materials & Interfaces; 9; 19; 5-2017; 16679-16684
1944-8244
CONICET Digital
CONICET
Autor
Mercuri, Magalí
Pierpauli, Karina Alejandra
Berli, Claudio Luis Alberto
Bellino, Martin Gonzalo
Resumen
Nanofluidics based on nanoscopic porous structures has emerged as the next evolutionary milestone in the construction of versatile nanodevices with unprecedented applications. However, the straightforward development of nanofluidically interconnected systems is crucial for the production of practical devices. Here, we demonstrate that spontaneous infiltration into supramolecularly templated mesoporous oxide films at the edge of a sessile drop in open air can be used to connect pairs of landmarks. The liquids from the drops can then join through the nanoporous network to guide a localized chemical reaction at the nanofluid–front interface. This method, here named “open-pit” nanofluidics, allows mixing reagents from nanofluidically connected droplet reservoirs that can be used as reactors to conduct reactions and precipitation processes. From the fundamental point of view, the work contributes to unveiling subtle phenomena during spontaneous infiltration of fluids in bodies with nanoscale dimensions such as the front broadening effect and the oscillatory behavior of the infiltration–evaporation front. The approach has distinctive advantages such as easy fabrication, low cost, and facility of scaling up for future development of ultrasensitive detection, controlled nanomaterial synthesis, and novel patterning methods.