Enhanced Vapour Sensing using Silicon Nanowire Devices Coated with Pt Nanoparticle Functionalized Porous Organic Frameworks

by A. Cao, M. Shan, L. Paltrinieri, W. Evers, L. Chu, L. Poltorak, J. H. Klootwijk, B. Seoane, J. Gascon, E. J. R. Sudhölter And L. C. P. M. De Smet
Year: 2018 ISSN: DOI: 10.1039/C7NR07745A

Bibliography

A. Cao, M. Shan, L. Paltrinieri, W. Evers, L. Chu, L. Poltorak, J. H. Klootwijk, B. Seoane, J. Gascon, E. J. R. Sudhölter and L. C. P. M. de Smet Nanoscale 10 (2018) 6884 – 6891. Enhanced Vapour Sensing using Silicon Nanowire Devices Coated with Pt Nanoparticle Functionalized Porous Organic Frameworks.

Abstract

​Recently various porous organic frameworks (POFs, crystalline or amorphous materials) have been discovered, and used for a wide range of applications, including molecular separations and catalysis. Silicon nanowires (SiNWs) have been extensively studied for diverse applications, including as transistors, solar cells, lithium ion batteries and sensors. Here we demonstrate the functionalization of SiNW surfaces with POFs and explore its effect on the electrical sensing properties of SiNW-based devices. The surface modification by POFs was easily achieved by polycondensation on amine-modified SiNWs. Platinum nanoparticles were formed in these POFs by impregnation with chloroplatinic acid followed by chemical reduction. The final hybrid system showed highly enhanced sensitivity for methanol vapour detection. We envisage that the integration of SiNWs with POF selector layers, loaded with different metal nanoparticles will open up new avenues, not only in chemical and biosensing, but also in separations and catalysis.

Keywords

Sensing Porous Aromatic Framework Pt nanoparticles