5th Edition of
Chemistry World Conference
June 02-04, 2025 | Rome, Italy
Explosives Detection And Analysis
Explosives Detection And Analysis Is A Critical Component Of National Security. Explosives Are Used In A Variety Of Ways: For Recreation, Construction, Or For The Production Of Weapons. The Ability To Detect And Analyze These Explosives Is Essential In Order To Ensure Public Safety And Security. There Are Several Methods Of Detecting And Analyzing Explosives, Depending On The Particular Situation. Ion Mobility Spectroscopy, Or IMS, Is One Type Of Technology Commonly Used To Detect And Analyze Explosives. This Technology Works By Measuring Changes In The Mobility Of Ions In An Electric Field. It Can Be Used To Detect Trace Particles Of An Explosive, Distinguish Different Types Of Explosives, And Identify The Amount Of Explosives Present In A Sample. It Can Also Be Used To Provide Evidence That Identifies A Particular Explosive’s Chemical Composition. Another Type Of Technology Used For Detecting And Analyzing Explosives Is Raman Spectroscopy. This Method Involves Using A Laser To Measure The Chemical Components Present In A Sample. The Laser Is Tuned To The Specific Frequency Of Each Element Present, Enabling It To Determine The Exact Composition. This Is Effective In Detecting And Analyzing Trace Elements And Compounds In Explosives, Including Components That Are Not Visible To The Naked Eye. Both IMS And Raman Spectroscopy Are Non-Destructive Techniques, Meaning They Allow For The Sample To Remain Intact. This Makes Them Ideal For Preserving Evidence, Which Can Then Be Used In Prosecuting Those Responsible For The Use Of Explosives. They Can Also Provide Important Information For The Development Of Countermeasures That Can Be Used To Reduce The Risk Of Future Explosions. Explosives Detection And Analysis Is A Necessary Part Of National Security And Public Safety. Technology Such As IMS And Raman Spectroscopy Can Be Used To Detect And Analyze Explosives And Provide Evidence That Can Be Used To Prosecute Those Responsible And Create Countermeasures That Reduce The Risk Of Explosions.
Yong Xiao Wang
Albany Medical College, United States
Hossam A Gabbar
Ontario Tech University, Canada
Stanislaw Dzwigaj
Sorbonne Universite, France
Haibo Ge
Texas Tech University, United States
Thomas J Webster
Hebei University of Technology, China
Makarov Vladimir
Institute of Permafrost Science, Russian Federation
Silvia Elizabeth Asis
Universidad de Buenos Aires, ArgentinaSubmit your abstract Today
Title : Advances in plasma-based waste treatment for sustainable communities
Hossam A Gabbar, Ontario Tech University, Canada
Title : Nanostructured biodevices based on carbon nanotubes and glyconanoparticles for bioelectrocatalytic applications
Serge Cosnier, Silesian University of Technology, Poland
Title : Carbon capture and storage: The impact of impurities in CO2 streams
Andy Brown, Progressive Energy Ltd, United Kingdom
Title : Supramolecular nano chemistries: Fighting viruses, inhibiting bacteria and growing tissues
Thomas J Webster, Hebei University of Technology, China
Title : Chemical engineering of vanadium and tantalum zeolites for application in environmental catalysis
Stanislaw Dzwigaj, Sorbonne Universite, France
Title : Disrupting TNF-α and TNFR1 interaction: Computational insights into the potential of D-Pinitol as an anti-inflammatory therapeutic
Ferran Acuna Pares, Universidad Internacional de la Rioja (UNIR), Spain