Effects of partial attachment at the interface between receptor and substrate on nanomechanical cantilever sensing

In nanomechanical sensing, the interfacial structure between a receptor layer and an underlying substrate affects output signals, especially in the case of a partial attachment at the interface. Here, we present numerical simulations of the interfacial structures for the static deflection of a nanomechanical cantilever sensor by finite element analysis. A wide range of physical and structural parameters of receptor layers as well as interfacial structures are analyzed, while taking into account most of the practical conditions. The comprehensive analyses performed in this study confirmed the important requirements for effective transduction of the stress induced in a receptor layer through the interfacial structures, including partial and full attachments. Notably, the results indicate that some partially attached interfacial structures can even enhance the deflection of a cantilever. (c) 2021 Elsevier B.V. All rights reserved.

Automated summary

This study presents numerical simulations of the interfacial structures for the static deflection of a nanomechanical cantilever sensor, analyzing a wide range of physical and structural parameters while considering practical conditions. The comprehensive analyses confirm the important requirements for effective transduction of stress through interfacial structures, including both partial and full attachments, with some partially attached structures even enhancing cantilever deflection.