MODELLING OF GAS DIFFUSION IN THE 3-D STRUCTURED METAL OXIDE NANOFILM

MODELLING OF GAS DIFFUSION IN THE 3-D STRUCTURED METAL OXIDE NANOFILM

Stať ve sborníku v databázi WoS či Scopus

Nanostructures of various materials and arrangements have been shown to be highly effective in the detection of chemical and biological matters. In this paper, a novel self-assembled 3-D nanofilm is described. We present a new computer-aided modelling approach applying a latest scientific knowledge in the field of microfluidics to improve a complex gas sensor design. The right questions are: What kind of 3-D structure is the best and how can we reach the best sensing parameters? Presented computer-aided modelling of gas diffusion in the 3-D nanofilm reveals an opportunity to substantially enhance sensor performance by the appropriate top electrode design.

Nanostructures of various materials and arrangements have been shown to be highly effective in the detection of chemical and biological matters. In this paper, a novel self-assembled 3-D nanofilm is described. We present a new computer-aided modelling approach applying a latest scientific knowledge in the field of microfluidics to improve a complex gas sensor design. The right questions are: What kind of 3-D structure is the best and how can we reach the best sensing parameters? Presented computer-aided modelling of gas diffusion in the 3-D nanofilm reveals an opportunity to substantially enhance sensor performance by the appropriate top electrode design.

Gas sensor, 3-D nanostructure, Modelling, Diffusion, Microfluidics

Gas sensor, 3-D nanostructure, Modelling, Diffusion, Microfluidics

PYTLÍČEK, Z.

23.04.2016

Vysoké učení technické v Brně, Fakulta elektrotechniky a komunikačních

Brno

978-80-214-5350-0

Proceedings of the 22nd Conference STUDENT EEICT 2016

640

644

5