AI Article Synopsis
- Nanostructured materials have a high surface-to-volume ratio, making them ideal for chemical sensors.
- Researchers proposed using buffered oxide etchant (BOE) to treat silicon-based sensors for cost-effective fabrication.
- The study demonstrated that BOE treatment enhances the hydrogen sensing performance of palladium nanoparticle-decorated silicon sensors by roughening the surface, providing consistent results even with different treatment times.
Article Abstract
The high surface-to-volume ratio of nanostructured materials is the key factor for excellent performance when applied to chemical sensors. In order to achieve this by a facile and low-cost fabrication strategy, buffered oxide etchant (BOE) treatment of a silicon (Si)-based sensor was proposed. An n-n-n Si nanofilm structure was treated with a BOE, and palladium nanoparticles (PdNPs) were coated on the n-type Si channel surface via short-time electron beam evaporation to enable a highly sensitive and selective sensing of hydrogen (H) gas. The BOE treatment effect on lightly doped n-type Si was investigated, and the surface morphology of the etched Si was analyzed. Furthermore, the H sensing characterization of PdNP-decorated Si devices with various BOE treatment times was systematically evaluated at room temperature. The results revealed that the surface of n-type Si is roughened by BOE treatment, which can further enhance the H-sensing performance of Pd-decorated Si. The elaborate study on the BOE-post-treated Si H sensor showed that the performance enhancement was stable. The BOE treatment strategy was also applied to the nanopatterned Si sensors, which induced a clear performance enhancement for the H sensing.
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| http://dx.doi.org/10.1021/acsami.0c08977 | DOI Listing |
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