Volume 4

Nano Research & Applications

ISSN: 2471-9838

Page 53

Notes:

August 16-18, 2018 | Dublin, Ireland

&

JOINT EVENT

12

th

Edition of International Conference on

Nanopharmaceutics and Advanced Drug Delivery

25

th

Nano Congress for Future Advancements

Nano Congress 2018

&

Nano Drug Delivery 2018

August 16-18, 2018

Silver nanoparticles in municipal wastewaters and environmental fate

S

ilver nanoparticle is largely used for various products and is finally found in discharged wastewaters. Silver was typically

detected in all investigated municipal wastewaters. Concentrations of total silver in municipal were measured to assess Ag

removal efficiency of treatment plants. Wastewater samples were also analyzed by the technique of single-particle inductively

coupled plasma–mass spectrometry (SP-ICP-MS) to identify and determine that they contained silver nanoparticles. Nano-

sized forms would account for less than 5% of the total Ag released from municipal effluents. Once released in the receiving

environment, Ag NPs can undergo major transformation and their initial properties can be modified under natural conditions.

The developed analytical approach was used for tracking silver nanoparticles and their degradation products over a period

of 80 days. Particle size distributions changed significantly under different experimental conditions where most material was

found in coarse colloidal fractions (<100 kDa). The presence of natural humic substances slowed degradation of nanoparticles,

which is characterized by the increase of free/small ion complexes and the detection of colloids with a size less than 80 nm.

Haft-live values were generally estimated to be less than 15 days under natural conditions. Future research on nanotoxicity

should consider exposure conditions, and then potential transformation, for risk assessment studies.

Biography

Christian Gagnon is a Senior Researcher in Geochemistry at Environment and Climate Change, Canada. He obtained his PhD from the University of Quebec/INRS-Ocean-

ography and completed his Postdoctoral studies on the bioavailability of contaminants at the State University of New York, Stony Brook. His research focuses on the

fate, transformation and behaviour of chemical contaminants released into the aquatic environment. All of its work aims at a better understanding of the mechanisms of

transformation and the fate of metals and emerging substances in waste water discharges and the receiving environment. He has published over 150 scientific publications

and reports and has contributed to over 250 scientific presentations on contaminant behaviour in the aquatic environment.

Christian.gagnon@canada.ca

Christian Gagnon

Environment and Climate Change Canada, Canada

Christian Gagnon, Nano Res Appl 2018, Volume 4

DOI: 10.21767/2471-9838-C3-013