Page 120

conferenceseries

.com

Volume 7

Biosensors Journal

ISSN: 2090-4967

Electrochemistry 2018

June 11-12, 2018

June 11-12, 2018 | Rome, Italy

4

th

International Conference on

Electrochemistry

Determination of lead in gunshot residue using anodic stripping voltammetry

Magdalena Wajrak

Edith Cowan University, Australia

L

ead is a naturally occurring element in the Earth’s crust, which is known to negatively affect human health and can destroy

ecosystems. Lead enters the body primarily through inhalation of lead containing dust and accidental ingestion. One

common source of lead in the environment is from gunshot residue. The gunshot residue is a by-product of the reaction in

the primer mix. The primer mix in bullets contains lead styphnate, barium nitrate, antimony sulphide, and these chemicals

are all present in gunshot residue. Environments with high levels of gunshot residue, like shooting ranges, contain high levels

of lead, and so measuring the lead in these environments is essential. Currently lead in gunshot residue can be determined

by inductively coupled plasma (ICP) and scanning electron microscopy (SEM), however, these instruments are all laboratory

based and significantly expensive. A portable instrument that can quickly and accurately assess gunshot residue samples in

the field would be a useful tool in reducing the risk of lead exposure. Voltammetry can be a solution to this problem. This

investigation compared ASV technique to ICP-MS in order to validate the ASV as a potential method for lead detection

in gunshot residues. The linearity, repeatability and limit of detection that were determined pertained to the accuracy and

precision of the instrument; only creating a 1% error of uncertainty, having a linear correlation which has an R2 of above 0.999

and being able to detect lead as low as 0.01 ppb concentration. Gunshot residue samples were analysed by both ICP-MS and

ASV, and this created a correlation of 0.995 for all samples. ASV is a suitable method in determining the concentration of lead

in gunshot residue.

m.wajrak@ecu.edu.au

Biosens J 2018, Volume 7

DOI: 10.4172/2090-4967-C1-003