1. www.lovells.com
Lovells LLP
Nanotechnology and Product Liability
Rod Freeman - Partner
Product Liability Group
Lovells LLP
6 February 2009

2. www.lovells.com
Lovells LLP
The challenges of new technology

3. www.lovells.com
Lovells LLP
The challenges of new technology

4. www.lovells.com
Lovells LLP
Product safety - the lessons of history

5. www.lovells.com
Lovells LLP
The challenges of nanotechnology
• Spectacular promises, benefits for all
• ...but at what price?
– these questions arising in a world in which consumers
are increasingly intolerant to risk

6. www.lovells.com
Lovells LLP
Nanotechnology
Dr Marion Palmer
Senior Scientist
Lovells Science Unit

7. www.lovells.com
Lovells LLP
Definition
• Most widely used definition:
– Nanoscience is the study of phenomena and
manipulation of materials at atomic, molecular and
macromolecular scales, where properties differ
significantly from those at a larger scale.
– Nanotechnologies are the design, characterisation,
production and application of structures, devices and
systems by controlling shape and size at nanometre
scale.

8. www.lovells.com
Lovells LLP
Millimetre scale (1 m = 1000 mm)
ant and flea
• 5 mm
• 3mm
• 1mm
http://www.nation
alinsectweek.co.u
k/resources/buzz
_ant_06.pdf
www.nanotec.org.uk/report/chapter2.pdf
http://commons.wiki
media.org/wiki/File:D
rosophila_melanoga
ster_-
_front_(aka).jpg

9. www.lovells.com
Lovells LLP
Micrometre scale (1 mm = 1000 µm)
eye of a fruit fly and a red blood cell
• 400 µm
• 8 µm
http://www.molbio1.princeton.edu/facility/confocal/sem/imagelist1.html
www.mta.ca/dmf/blood.htm

10. www.lovells.com
Lovells LLP
Nanometre scale (1 µm = 1000 nm) – viruses &
DNA
• 50 – 100 nm • 2 nm
http://www.gala-instrumente.de/images/deben_CCD_DNA.jpg
www.answers.com/topic/virus

11. www.lovells.com
Lovells LLP
Nanostructures
• Nanoparticles

12. www.lovells.com
Lovells LLP
Nanostructures
• Fullerenes – e.g. carbon nanotubes and
buckyballs

13. www.lovells.com
Lovells LLP
Nanostructures
• Quantum dots
http://www.nist.gov/public_affairs/update/quantumdots.htm
http://www.nanopicoftheday.org/2003Pics/QDRainbow.htm

14. www.lovells.com
Lovells LLP
Nanostructures
• Non-carbon nanotubes
• Nanowires
• Biopolymers
• Dendrimers
http://nano.med.umich.edu/projects/dendrimers.html
http://www.nist.gov/public_affairs/05nano_image_gallery.htm

15. www.lovells.com
Lovells LLP
Nanotechnology
What make technology at the
nanoscale different from
technology at the macroscale?

16. www.lovells.com
Lovells LLP
Volume to surface area ratio
• As objects get
smaller they have a
much greater
surface area to
volume ratio
2 cm cube has
a surface area
of 24 cm2 and a
volume of 8 cm3
(ratio = 3:1)
10 cm cube has a
surface area of 600
cm2 and a volume of
1000 cm3 (ratio =
0.6:1)

17. www.lovells.com
Lovells LLP
Physical properties
• At very small sizes physical properties (magnetic,
electric and optical) of materials can change
dramatically.
http://www.omicron.de/index2.html?/re
sults/spin_polarized_tunneling_induce
d_luminescence_microcopy_sp_tilm/in
dex.html~Omicron

18. www.lovells.com
Lovells LLP
Applications
• Antibacterial effect of silver
www.nanotech-now.com

19. www.lovells.com
Lovells LLP
Applications
• Coatings - self-cleaning windows and stainproof
clothing

20. www.lovells.com
Lovells LLP
Applications
• Microchips
•http://ion.asu.edu/cool66_IC2/cool66_ic_thumb.htm

21. www.lovells.com
Lovells LLP
Applications
• Sunscreens and cosmetics

22. www.lovells.com
Lovells LLP
Applications
• Catalysts
– Envirox™ cerium oxide
• Nanoremediation
– SAMMS technology to remove
mercury
• Paper
– photographic paper
• Filters
– nanofibres
• Toothpaste
– to remineralise teeth
• Food
– packaging
• Paint
– improved adhesion and anti-
fungal qualities/anti-graffiti
• Clothes
– non-staining and anti-radiation
• Batteries
– (Black & Decker) phosphate
nanocrystal technology
• Cleaning products

23. www.lovells.com
Lovells LLP
Why is there so much interest/concern about
nanotechnology?
• Enormous potential
• Huge gaps in knowledge concerning the possible
risks
• Difficulty in detecting and removing
• Absence of regulation

24. www.lovells.com
Lovells LLP
Potentials risks associated with nanotechnology
• Adverse health effects in humans from deliberate or
accidental exposure
• Adverse effects on the environment from deliberate or
accidental exposure
• Potentially explosive properties of nanostructures
• “Grey goo”

25. www.lovells.com
Lovells LLP
Risk assessment problems
• Very difficult to detect without sophisticated equipment
• Difficult to predict how particles will behave in the environment
(dispersed/clumped)
• Small size may result in particles passing into the body more easily
(inhalation, ingestion, absorption)
• May be more reactive due to surface area to volume ratio
• Potential to adsorb toxic chemicals
• Persistence - Longevity of particles in the environment and body are
unknown

26. www.lovells.com
Lovells LLP
Toxicological difficulties
• All structures are likely to have a unique
toxicological profile
• Standardised terminology agreed recently
• Particle size may be less important than the
surface characteristics of the material
• Standard dose-response tests may not be
appropriate

27. www.lovells.com
Lovells LLP
Carbon nanotubes
http://www.nano-lab.com/nanotube-image.html

28. www.lovells.com
Lovells LLP
Carbon Nanotubes
• Commercially produced by companies such as
Thomas Swan
• Desirable product
http://www.tennis.com/yo
urgame/gear/racquets/babo
lat/babolat.aspx?id=56932

29. www.lovells.com
Lovells LLP
Potential applications of carbon nanotubes
Materials & Chemistry
- Ceramic and metallic CNT composites
- Polymer CNT composites (heat
conducting polymers)
- Coatings (e.g. conductive surfaces)
- Membranes and catalysis
- Tips of Scanning Probe Microscopes
(SPM)
Medicine & Life Science
- Medical diagnosis (e.g. Lab on a Chip
(LOC))
- Medical applications (e.g. drug delivery)
- Chemical sensors
- Filters for water and food treatment
Electronics & ICT
- Lighting elements, CNT based field
emission displays
- Microelectronic: Single electron transistor
- Molecular computing and data storage
- Ultra-sensitive electromechanical sensors
- Micro-Electro-Mechanical Systems
(MEMS)
Energy
- Hydrogen storage, energy storage (super
capacitors)
- Solar cells
- Fuel cells
- Superconductive materials

30. www.lovells.com
Lovells LLP
Carbon nanotubes
• Have raised concerns due to a superficial
likeness to asbestos fibres and extreme durability
• Potential exposures during manufacturing,
processing, product use and disposal
• Have been researched more than most
manufactured nanostructures

31. www.lovells.com
Lovells LLP
CNT Research
• Results have been variable dependent on dose, testing model, purity and
type of nanostructure
• Research results to date:
– Some coated CNTs appear to move freely throughout the body (mice) whereas
others are rapidly excreted
– Installation experiments have shown inflammatory, fibrotic and immune changes
– Inhalation experiments have shown small changes in the lung
– Effects on the immune system
– Effects on cell growth and death
– Modification of tube coating by aquatic organisms

32. www.lovells.com
Lovells LLP
IOM HARN Report
• Funded by Defra
• Objective – "to undertake a scoping
study to review the existing literature
on industrial fibres and HARN to
determine whether high aspect ratio
nanoparticles (HARN) should raise the
same concerns as do asbestos fibres"
• "This review has identified many
similarities between HARN and
asbestos with regard to their physico-
chemical properties and toxicological
effects and has concluded that there is
sufficient evidence to suggest that
HARN which have the same
characteristics (diameter, length and
biopersitence) as pathogenic fibres are
likely to have similar pathology.
This review has also highlighted the
lack of data in key areas of toxicology,
exposure and assessment."

33. www.lovells.com
Lovells LLP
Regulation
• New generic nanotechnology regulations would be difficult to devise.
• More likely that current regulations/legislation will be adapted to take
account of developments at the nanoscale.
• Review by the European Commission* on the regulatory aspects of
nanotechnology : chemicals (REACH), worker protection (e.g.
Directive 89/391/EEC), products (e.g. General Product Safety
Directive), environmental protection (e.g. Directive 2006/12/EC on
waste)
• "Current legislation covers in principle the potential health, safety and
environmental risks in relation to nanomaterials ...."
*Regulatory Aspects of Nanomaterials – Communication from the European Commission 2008

34. www.lovells.com
Lovells LLP
REACH
• Regulation (EC) No 1907/2006 of the European Parliament and of the
Council on the Registration, Evaluation, Authorisation and Restriction of
Chemicals
• "REACH is based on the principle that manufacturers, importers and
downstream users have to ensure that they manufacture, place on the
market or use such substances that do not adversely affect human health or
the environment."
• Places an obligation on importers/manufacturers to produce a registration
dossier for any substance that is imported/manufactured in a quantity greater
than 1 tonne (>10 tonnes – chemical safety report)
• Commission report states "There are no provisions in REACH referring
explicitly to nanomaterials. However, nanomaterials are covered by the
“substance” definition in REACH."

35. www.lovells.com
Lovells LLP
REACH and nanomaterials
• Registration document will need to be updated if a
nanoversion of a material is introduced
– however novel nanomaterials may not reach the weight threshold
for notification
• Current testing guidelines may need to be modified – in
the interim testing should be carried out according to
existing guidelines
• Substances of high concern require special authorisation
– effects of most nanomaterials are unknown

36. www.lovells.com
Lovells LLP
October 2008
• Amendment (Commission Regulation (EC) No 987/2008)
concerning the removal of carbon and graphite from lists
of exempt materials:
• "The review carried out by the Commission pursuant to
Article 138(4) has revealed that three substances listed in
Annex IV should be removed from that Annex, as
insufficient information is known about these substances
for them to be considered as causing minimum risk
because of their intrinsic properties ... This is also the
case with carbon and graphite, in particular due to the
fact that the concerned Einecs and/or CAS numbers are
used to identify forms of carbon or graphite at the nano-
scale, which do not meet the criteria for inclusion in this
Annex."

37. www.lovells.com
Lovells LLP
Nanotechnology and product liability
1. New technology and the concept of "defect"
2. Development risks
• what is "discoverable"?
• emerging knowledge and the benefit of hindsight

38. www.lovells.com
Lovells LLP
Nanotechnology and product liability
• Regulatory intervention and regulatory
compliance
• Implications of REACH-style regulation
• Relative responsibilities
• innovators
• other suppliers
• regulators
• Duties to research/test/investigate/inquire