Abstract
Abstract In the field of disease diagnosis, there are few applications of gas sensors. But, gas sensors can specifically identify certain diseases. So, there is a great need for gas sensors capable of responding to trace amounts of special biomarker gases in high ambient humidity. The dual-modulated composite array of Ag NPs-modified PPy@SiNWs core-shell structures (Ag-PPy@SiNWs) are developed for sensitive response to a rarefied biomarker of NH3 at high ambient humidity. A repeated metal-assisted chemical etching (MACE) was first performed to fabricate a loose array of pristine SiNWs. Then Ag-PPy@SiNWs array one-step prepared via vapor phase polymerization (VPP) of Py on SiNWs with AgNO3 as oxidant. In the process, surface modification by Ag NPs is achieved in parallel to the PPy-shell formation during Py polymerization. PPy hetero-shell and Ag NPs contribute to NH3-sensing performance under high ambient humidity. Ag-PPy @ SiNWs can detect rare NH3 as low as 200 ppb at room temperature and 80% RH. Finally, the paper analyzes the sensing mechanism of Ag-PPy@SiNWs for NH3 under high humidity, especially the contribution induced by Ag NPs.
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More From: Physica E: Low-dimensional Systems and Nanostructures
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