Mechanical Engineering Faculty Research
Title
An Electronic Pollen Detection Method Using Coulter Counting Principle
Document Type
Article
Publication Date
9-2005
Abstract
A method for detecting and counting pollen particles based on Coulter counting principle is presented. This approach also provides information on the size and surface charges of the micro particles, allowing for preliminary differentiation of pollens from other micro particles. Three samples are studied: polymethyl methacrylate particles, tree pollens from Juniperus Scopulorum and grass pollens from Secale Cerale. The samples, suspended in diluted KCl aqueous solutions in an electrochemical cell, were allowed to pass through a microchannel and the conductance of the microchannel was sampled with a Gamry®Potentiostat. The changes in the conductance due to the passing of the micro particles was thus recorded and analyzed. The experimental results showed that tree pollens and grass pollens display distinctive behaviors. The phenomena may be attributed to the differences in the surface characteristics of the pollens and is potentially useful for counting and differentiating different micro particles.
Publication Title
Atmospheric Environment
Volume
39
Issue
30
First Page
5446
Last Page
5453
Recommended Citation
Zhang, Zheng; Zhe, Jiang; Chandra, Santanu; and Hu, Jun, "An Electronic Pollen Detection Method Using Coulter Counting Principle" (2005). Mechanical Engineering Faculty Research. 1004.
https://ideaexchange.uakron.edu/mechanical_ideas/1004