New insights into detoxification of chemical warfare simulants and
pesticides using micelle mediated systems
Issue title: Sensing and Destroying Chemical Weapons and
Pesticides Based on the Symposium at the 238th American Chemical Society
Meeting Washington DC, USA, August 18–19, 2009
Affiliations: School of Studies in Chemistry, Pt. Ravishankar Shukla
University, Raipur (C.G.), India | Center of Advanced Studies and Department of
Toxicology, Faculty of Military Health Sciences, Trebesska, Hradec Kralove,
Czech Republic
Note: [] Corresponding author: School of Studies in Chemistry, Pt.
Ravishankar Shukla University, Raipur (C.G.), 492010, India. E-mail:
[email protected]
Abstract: The accumulation of organophosphorus neurotoxic compounds and
biological warfare agents in the environment is a recognized ecological threat
existing in the global scenario. Despite sustained research efforts, there
remains a need for new, simple, effective, inexpensive, biodegradable and
environmentally friendly method for detoxification of chemical warfare agents
and pesticides. In the last few years, our laboratory has aimed at
demonstrating on the rapid method of α-nucleophiles
hydroxamate and oximates mediated catalysis of organophosphate, phosphonate,
phosphinate, paraoxon, parathion, fenitrothion and other chemical warfare
simulants in microorganized media like micelles and microemulsions. Different
types of α-nucleophiles, metallosurfactants,
acetylcholinesterase reactivators, nanoparticles and functionalized surfactants
have been designed as potential hydrolytic micellar catalysts. In this lecture,
an overview of detoxification chemistry and application of some novel
monomeric, and functionalized surfactants on the reactivity of some toxic
phosphate esters and carboxylic esters will be presented. Our contribution in
the field is the development of catalysts capable of converting chemical
warfare agents into non toxic products. The results provide new insight and
direction towards the design of more effective chemical agent for
detoxification.
