Posts Tagged ‘CWA’
Article in ACS’ Analytical Chemistry journal: Discovery of a new dimension in selectivity for PTR-MS
We have already successfully demonstrated the ability of PTR-MS to detect common threat agents such as CWAs, TICs and Explosives in earlier studies. Using high-resolution IONICON PTR-TOFMS series instruments an unambiguous identification of most known substances has already been proven.
A new study shows that another potentially useful procedure for the elimination of false positives with regard to the detection of TNT using PTR-MS technology was found:
Technical Advances in Proton Transfer Reaction-Mass Spectrometry and New Fields of Application.
In 1998 IONICON was founded and we were able to sell the first commercial instrument. Since then, after years of dedicated research, passionate development and intensively working together with our partners and customers, we sold more than 200 units. Learn more on the recent advances of the PTR-MS technology, our products and their applications in an article with the title Technical Advances in Proton Transfer Reaction-Mass Spectrometry and New Fields of Application, published in American Laboratory (September 01, 2011) being available online.
IONICON science manager, Dr. Philipp Sulzer will co-chair the session A3 Detection of hazardous Material and give a lecture.
Terrorism, organized crime and sabotage, but also natural disasters and technological accidents can cause serious damage and disruption with long-lasting consequences for economies and the quality of life.
The 6th Future Security, Security Research Conference will take place 5. -7. September 2011 in Berlin, Germany and has the aim to bring together the decision makers in politics, industry and finance with scientists working on leading edge and innovative concepts, sensors or systems for civil security.
Philipp Sulzer will chair the session Detection of Hazardous Material on Tuesday September 6 from 9:00 to 10:20 and give a lecture with the title: Detection and Identification of illicit and Hazardous Substances with Proton-Transfer-Reaction Mass Spectrometry (PTR-MS).
Continue to read the abstract:
IONICON PTR-MS technology sniffs explosives such as PETN in very low concentrations
The recent terror plot to transport printers containing the explosive pentaerythritol tetranitrate, or PETN, from Yemen to Chicago synagogues has once again focused attention on the need to detect explosives reliably and in real-time.
PETN is the same explosive that the so-called “shoe-bomber” tried to set-off on an American Airlines jet to Miami in 2001. More recently PETN was involved in the failed attempt at setting off a bomb on an airliner in midair (Northwest Airlines Flight 253, 25th December 2009) by the Nigerian born Umar Farouk Abdulmutallab and in the attempted assassination of a member of the Saudi royal family this summer.
PETN is an extremely powerful explosive, belonging to the nitroglycerine family, but is very stable. It is therefore a preferred explosive used by terrorists. A major problem for security personnel is that PETN is difficult to detect. Analytical methods generally rely on the presence of residues left on the surfaces of freight containing explosives. However, a major difficulty associated with any analytical instrument is to achieve high selectivity, thereby reducing false positives and negatives, whilst maintaining the high sensitivity required for trace detection.
Safety and Protection of built Infrastructure to Resist Integral Threats
Terrorist attacks by bombing or CBR (Chemical, Biological and Radiological) are threats with a low likelihood but with extremely high impact.
There is strong need to protect critical infrastructures and utilities (malls, governmental buildings and embassies), train and subway stations against being damaged, destroyed or disrupted by deliberate acts of terrorism, criminal activity and malicious behaviour.
The overall aim of the SPIRIT project is to provide the technology and know-how for the protection of buildings and people against terrorist treat and to minimize the consequences of a terrorist attack in terms of number of casualties/injuries, damage and loss of functionality and services.
Ultraempfindliches Analysegerät spürt gefährliche Stoffe in geringster Konzentration sofort in der Luft auf
„Unsere Technologie kann sich jeder als eine Art ‘Luft-Detektiv’ vorstellen. Sobald winzigste Konzentrationen von Sprengmitteln, chemischen Kampfstoffen oder weiteren gefährlichen Substanzen auftreten, schlägt zeitgleich als technischer Kriminalist unser ultraempfindliches Analysegerät an. Es reagiert bereits auf Ebene einzelner Moleküle, kann daher frühzeitigst Gefahren aufspüren, womit unverzüglich Schutzmaßnahmen ergriffen werden können“, erklärt der Physiker Prof. Tilmann Märk, Geschäftsführer der Ionicon Analytik GmbH. Mögliche Gesundheitsrisiken bestehen laut Märk beim Einsatz des „Luft-Detektives“ nicht.