Proceedings ArticleDOI
Selective acetone electrical detection using functionalized nano-porous silicon
Priyanka Dwivedi,Saakshi Dhanekar,Samaresh Das +2 more
- pp 1-4
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TLDR
In this article, a functionalized nano-porous silicon (PS) was used for detecting acetone in the presence of volatile organic compounds (VOCs) and moisture.Abstract:
This paper reports selective acetone sensing portrayed by functionalized nano-porous silicon (PS). Functionalization of nanostructure was performed using hexamethyldisilazane (HMDS). Nano-PS fabrication and morphology analysis were done using electrochemical etching and SEM respectively. Optical properties of PS were analyzed using Raman and Photoluminescence (PL) spectroscopy. Parallel aluminium electrodes were formed on nano-PS surface using thermal evaporation technique. These electrodes were used for recording electrical measurements from porous surface in presence of volatile organic compounds (VOCs) and moisture. Resistance variations due to interaction of sensing surface with different concentrations of ethanol, acetone, moisture and isopropyl alcohol vapors were monitored at room temperature. Various sensor parameters were calculated like sensitivity, response- and recovery-time. Sensor based on functionalized nano-PS was found to be most responsive for acetone in comparison to other VOCs or moisture. Since, acetone is one of the important metabolite components in the circulated blood of the human body therefore, its concentration determination is necessary. The approach for selective sensing presented in this work is simple and low cost.read more
Citations
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The one phonon raman spectrum in microcrystalline silicon
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References
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Porous Silicon in Practice: Preparation, Characterization and Applications
TL;DR: Porosity, Pore size, and pore size distribution in the x-y plane using physical or virtual masks were measured in this paper, showing that porosity and thickness of porosity can be measured using lift-off films of Porous Silicon.
Journal ArticleDOI
Microfluidic Enzyme Immunoassay Using Silicon Microchip with Immobilized Antibodies and Chemiluminescence Detection
Julia Yakovleva,Richard Davidsson,Anna Lobanova,Martin Bengtsson,Sergei A. Eremin,Thomas Laurell,Jenny Emnéus +6 more
TL;DR: The buffer composition was shown to have a dramatic effect on the assay stability, where the commonly used phosphate buffer saline was proved to be the least suitable choice.
Journal ArticleDOI
Photonic Crystal Sensors Based on Porous Silicon
TL;DR: Porous silicon has been established as an excellent sensing platform for the optical detection of hazardous chemicals and biomolecular interactions such as DNA hybridization, antigen/antibody binding, and enzymatic reactions and development of porous silicon photonic crystal sensors which allow for the detection of analytes by the naked eye emphasize its high application potential.
Journal ArticleDOI
Organic vapour sensing by current response of porous silicon layer
TL;DR: In this article, a porous silicon (PS) layer is investigated as a sensing material to detect organic vapours with low concentration, and the sensors were made by applying the technologies of membrane formation by anisotropic etching of silicon and anodization in HF solution.
Journal ArticleDOI
Current status and outlook for silicon-based optical biosensors
TL;DR: In this article, the importance of silicon photonic devices extends beyond passive structures for light guiding and light emission, and the advantages of these silicon-based optical biosensors for high sensitivity detection include a low analyte volume requirement, reduced size, and compatibility with existing CMOS technology.