Explosions 4

Question 1

What are clandestine explosives?

Answer 1

Improvised explosive manufacturing
* Working in conditions that arent optimised
* Frequently used in terrorist attacks
* Manufacturing is usually uncontrolled and undertaken by a less experienced personnel
* No control of starting material impurity profile (can increase shock sensitivity)
* Often unaware of the exact product made

Question 2

What is acetone peroxide?

Answer 2

• A common clandestine explosive
• Produced in both a dimer (DATP) and trimer (TATP)
• Very oxygen deficient - cant even form Co and H2O without O2 from environment
• Actual products dont conform with the K-W rules
• Forms acetone and ozone

Question 3

The calculated heat of explosion is +10.8 kcal mol-1 for TATP, calculate the volume of detonation and say what this suggests about the explosion?

(produces 4 moles of gas)

Answer 3

V = 4 x 22.4 = 89.6 L mol-1
Entropic explosion - heat is taken in from the surroundings

Question 4

Techniques you can and cant use and why

Detection of TATP

Answer 4

• No strong UV or visible absorption - HPLC/UV-vis not possible
• GC-MS possible but challenging due to it because volatile and not pure
  Peroxidase enzyme:
• Shine UV light, decomposes back into starting reagents
• Then test for hydrogen peroxide
• Colourless to green if possitive
• Not very sensitive

Question 5

What are two other types of clandestine explosives other than TATP?

Answer 5

• ANFO = fertiliser bomb, ammonium nitrate and fuel oil
• ANFO + nitrobenzene

Question 6

What are taggants?

Answer 6

Additivies that provide a traceable ‘signature’ to the explosive

Question 7

What kind of quality would we want in an explosive taggant and why?

Answer 7

• Volatile = easily detected in the gas phase
• Not used in other application = no good for a taggent to be able to be found anywhere (wont know if its from the explosive or just found at the scene)

Question 8

What are pre-detonation taggants used for and where?

Answer 8

Used to prevent attacks in high security settings - government buildings and airports
* Detected by sniffer dogs or MS systems

Question 9

Why arent sniffer dogs the best for detecting taggants and what is better?

Answer 9

• Sniffer dogs can only smell up to ppm which might not be enough to identify them
• MS has a much higher sensitivity (ppb)

Question 10

How does ion mobility spectrometry work?

Answer 10

• Molecules are ionised by an electric field to accelerate them
• Drift gas is pumped in a different direction - prevents molecules from passing through too quickly and larger molecules will be affected more = better separation

Question 11

What are the advantages of an ion mobility spectrometer?

Answer 11

• Analysis time is short so not a long wait for samples to pass through - ideal for high security settings
• Faster separation than GC or LC (milliseconds)
• Automated software can flag any components that are suspicious

Question 12

What factors can affect the ion mobility in an ion mobility spectrometer?

Answer 12

• Reduced mass of the ion
• Number density of drift gas (molecules/volume)
• Collisions cross section (probability of collision with drift gas)
• Charge on the ion

Question 13

How are nitrocellulose-like materials made and why are they so dangerous?

Answer 13

• Cellulose treated with nitric acid
• Cellulose can be obtained from a sock
• Very difficult to remove the oxygen once deflagration has began so it will keep burning until all the products has been used up