The aim of the present study was to combine the use of miniaturized and integrated impedimetric transducers and antimicrobial peptide AMPs to obtain biosensors with high sensitivity to monitor bacterial colonization to prevent implant-related infections..

A new type of electrically controlled and fully integrated wax microvalve is described in this work. The valve is designed for multiple actuation and has a small footprint (< 0.5 mm2), fast response (< 0.3 s) and low energy consumption (< 35 mJ).

In this work, the feasibility of using multi-material pSi-Cr-Au intracellular chips for multifunctional applications by characterizing their interactions with two different cell lines, one tumorigenic and one non-tumorigenic has been explored.

 Resistive switching conduction in Ni/HfO2/Si capacitors is studied at temperatures ranging from 77 to 473 K. A model for the low-resistance state (LRS) consistent with the experimental data is proposed.

L'IMB-CNM participa regularment en esdeveniments anuals de divulgació científica.

The IMB-CNM participates regularly in science awareness events.

El IMB-CNM participa regularmente en eventos de divulgacion para promover el conocimiento científico entre toda la sociedad.

For development of an impedimetric biosensor to quantify viable bacterial cells, this work defines the relationships between microbial growth and impedance changes associated with acidification of the culture medium.

A novel suspended planar-array chips technology is described, which effectively allows molecular multiplexing using a single suspended chip to analyze extraordinarily small volumes.

A suspended p-type Si nanowire incorporating Si nanocrystal quantum dots has been used to form a single-hole transistor. Fabrication is based on focused Ga ion beam exposure and anisotropic wet etching.