Study of Ag doped SnO2 film and its response towards aromatic compounds present in tea

EasyChair Preprint 626

Abstract

The work presented here focuses on the synthesis of Ag doped SnO2 based metal oxide semiconductor gas sensor using co-precipitation method and its performance evaluation towards some vital compounds responsible for the appealing aroma in tea. The sensor is tested to evaluate its response towards four noteworthy compounds (linalool, geraniol, methyl salicylate and trans-2-hexenal) present in the aroma matrix of black tea under diverse working temperature conditions. The prepared Ag doped SnO2 gas sensor exhibits improved sensitivity at a comparatively lesser working temperature (150deg.C) than the undoped SnO2 gas sensor. The proposed Ag doped sensor yields the highest sensitivity towards methyl salicylate(64.69%), an organic ester naturally synthesized by tea plants and is found in green, oolong and black tea. The physical characterization of the sensing material is carried out using XRD(x-ray diffraction), EDS(Energy dispersive X-ray spectroscopy) and SEM (scanning electron microscope). This research will aid in selecting an appropriate sensing material for detection of methyl salicylate which could help in the quality determination of tea.

Keyphrases: MOS, Methyl salicylate, TEA, aroma, co-precipitation, gas sensor

@booklet{EasyChair:626,
  author    = {Priyanka Kakoty and Manabendra Bhuyan},
  title     = {Study of Ag doped SnO2 film and its response towards aromatic compounds present in tea},
  howpublished = {EasyChair Preprint 626},
  year      = {EasyChair, 2018}}