Part 3

Question 1

What are fuel additives used for?

Answer 1

Additives can be used to reduce the total mass of particulate matter, and reducing CO, NOx and SOx emissions.

Question 2

What are Cerium oxide NPs used for?

Answer 2

Added to fuel to improve performance by:

• soot burn within the combustion cycle
• Oxidising carbon deposit build up within the engine, improving performance and better fuel economy.

Question 3

What is the transformation of Cerium during combustion?

Answer 3

Undergoes transformation from CeO2 (+4) to Ce2O3 (+3) SEE NOTES.

Question 4

Why do combustion chamber deposits lower efficiency?

Answer 4

Regular atomisation produces large drops of fuel which promotes Incomplete combustion, increasing harmful emissions and promotes buildup of combustion chamber deposits. Deposits act as thermal insulators, raising combustion temperatures and increasing NOx emissions.

Question 5

What effect does F2-21 additive have on fuel combustion?

Answer 5

F2-21 creates millions of tiny nano-clusters in the fuel. These nano-clusters explode just before and during combustion, increasing turbulence and generating smaller fuel droplets. Smaller fuel droplets vaporize completely, leaving no unburned fuel residue. This results in more complete combustion, which increases power and improves mileage.

Question 6

What effect do NPs have on combustion chamber deposits?

Answer 6

Exploding NP clusters help break down and disintegrate combustion chamber deposits, as well as prevent future build up.

Question 7

How can NMs be used for carbon capture?

Answer 7

Use of amines to capture CO2, as these can form stable carbamates and bicarbonates.

Question 8

How can NMs be used for water purification?

Answer 8

Coating Fe3O4 magnetic NPs with humic acid for high efficient removal of heavy metals in water

Question 9

What is the mechanism for batch synthesis of NPs?

Answer 9

A rapid increase in the concentration of free monomers in solution. The monomer undergoes burst nucleation which significantly reduces the contraption of free monomers in solution. After this point, almost no nucleation occurs due to the low concentration of monomers after this point. Following nucleation, growth occurs.

Question 10

How do you synthesise a semiconductor NP?

Answer 10

(1) TOPO is dried and degassed in a reaction vessel by heating, whilst periodically flushing with argon.
(2) Heat is removed first from the reaction vessel. Then a mixture is quickly injected ti the vigorously stirring reaction flask.
(3) the temperature is gradually raised and maintained for a period of time to produce a series of NP sizes.

Question 11

Give the limitations of batch synthesis of NPs

Answer 11

Batch to batch variation due to temperature gradient, concentration gradient etc, pH, reactant concentrations. Poor reproducibility.

Hard to discern between nucleation and growth stages

Low yield

High cost, bottle neck of batch processing.

Question 12

Give the advantages of Microfluidic synthesis of NPs

Answer 12

Fast heat transfer due to their large interfacial surface area-to-volume ratio, efficient and homogenous mixing.

Precise control over reaction conditions, including temperature

Production time is independent of the process scale.

Distinct stage of nucleation and growth

Can be used to produce ultra small nanoparticles.

Question 13

What are the main pathways for NP exposure?

Answer 13

Inhalation
Digestion
Dermal exposure

Question 14

Why is inhalation of NP a risk to health?

Answer 14

• Ultra-small NPs showed efficient delivery to the alveoli, but generally show low retention in the lungs due to rapid penetration into the bloodstream.
• Larger particles settle in upper airway and removed by e.g. mucus, coughing etc.
• Smaller nanoparticles penetrate deeper into the alveolar region
• NPs less than 100 nm start to behave more like a gas, they begin to diffuse in the body. The have the ability to penetrate the lungs and enter to bloodstream.

Question 15

What are the effects if NPs enter the blood stream?

Answer 15

It allows them to be engulfed by cells and accumulate in organs like the heart, kidney, liver etc. In addition, some of these materials can also damage DNA and cause cancer.

Question 16

What characteristics of high-aspect ratio nanofibers should be considered for particular care?

Answer 16

Thinner than 3 um
Longer than 10-20 um
bio persistent
do not dissolve/break into shorter fibres.

Question 17

Why is dermal exposure in normal conditions difficult?

Answer 17

Transcellular route involves substances passing through the cells. Therefore, the process requires the transport of materials through aqueous environment and hydrophobic environments.

Question 18

what can accelerate the uptake of NPs through dermal exposure?

Answer 18

Damaged skin (sunburn, eczema, acne, open wounds)

Question 19

List side effects of ingestion

Answer 19

Still unknown, but have been observed to accumulate in the liver, spleen, kidney and may cause permanent liver damage.

Question 20

What is nano toxicology?

Answer 20

the study of the toxicity of nano materials

Question 21

What is the point of nano toxicology?

Answer 21

Studies are intended to determine whether and to what extent nano materials and their properties pose a threat to humans and the environment.

Question 22

Why is nano toxicology important even for inert elements?

Answer 22

Inert elements, such as gold, become highly active at nanometer dimensions.

Question 23

What are ROS’s and why is it bad?

Answer 23

Reactive oxygen species and free radical production is one of the primary mechanisms of NP toxicity because it may result in oxidative stress, inflammation, and consequent damage to proteins, membranes and DNA.

Question 24

Why is the creation of ROS’s particularly important when considering nanomaterials?

Answer 24

The greater chemical reactivity of nano materials can result in increased production of reactive oxygen species (ROS), including free radicals.

Question 25

What makes nano materials particularly dangerous when considering bio-distribution?

Answer 25

They are extremely small which means they more easily gain entry into the human body.

the large surface area of NP’s will, on exposure to tissue and fluids, immediately absorb onto their surface some of the macromolecules they encounter.

In principle, a large number of particles could overload cells that ingest and destroy foreign matter, weakening the body’s defence against other pathogens.

NMs can be taken up by cells mitochondria and nucleus, causing major structural damage.

Can cause DNA mutation

Question 26

What is pharmacodynamics?

Answer 26

The study of the biochemical and physiological effects of drugs on the body

What the drug does to the body.

Question 27

What is pharmacokinetics?

Answer 27

Describes how the body affects a specific drug after administration through the mechanisms of absorption and distribution. Includes the chemical changes of the substance in the body.

(absorption, distribution, metabolism, excretion ADME, processes)

What the body does to the drug.

Question 28

Why is pharmacokinetics study important?

Answer 28

(absorption, distribution, metabolism, excretion ADME, processes) could provide valuable information for the design of more effective therapeutics.