Inventory of consumer products containing nanomaterials

Inventory of consumer products containing

nanomaterials

RIVM letter report 340120001

SIR Advisory report 11124

Version July 27, 2007

Authors:

S. Dekkers, L.C.H. Prud'homme De Lodder, R. de Winter, A.J.A.M.

Sips, W.H. de Jong

This investigation has been performed by order and for the account of the Food and

Consumer Product Safety Authority (VWA), within the framework of project V340120

(Health Risks of the application of nanotechnology in consumer products).

Contents

1.

Introduction 3

2.

Methods 5

3.

Limitations 7

4.

Results 8

5.

Conclusions 11

6.

References 12

1. Introduction

Nanotechnology is a promising technology which enables the development and application of

many different types of products. Nanomaterials are developed and used because they have

specific physico-chemical properties, such as improved electromagnetic properties, catalytic

properties, pharmacokinetic and targeting properties, strength, stiffness, stability, etc.

Although different terms and definitions are used in the scientific literature, in this report the

term nanomaterials is used to indicate engineered materials which contain structures with a

size of less than 100 nm in at least one dimension. These materials include free nanoparticles

as well as nanomaterials that are attached to or incorporated into the matrix of larger

structures. Naturally occurring and unintentionally produced nanomaterials are not included

in this definition.

Important areas of application for nanomaterials are electronics, pharmaceuticals and foods.

This report focuses on the use of nanomaterials in consumer products (non-food products

intended for the consumer). Although several consumer products containing nanomaterials

are already available on the Dutch market, there is still a lack of knowledge about the

potential health risks of nanomaterials. However, it can not be excluded that the specific

physico-chemical properties which make nanomaterials so interesting may also lead to

specific risks. For instance, smaller particles have a greater surface area per unit mass than

larger particles, which may render them more reactive. This may result in an increased

reactivity with biological systems which may lead to an increased toxicity. In addition, there

are indications that the small particle size may allow nanomaterials to travel more easily

through the body compared to large particles. It is generally assumed that the most important

health risks of nanomaterials are to be expected from free nanoparticles. For nanomaterials

that are attached to or integrated into larger materials or structures, like for example coatings,

the health risks are considered minimal, as long as the nanomaterials remain in the matrix or

bound to the surface of the larger material, and therefore are not available for exposure.

Within RIVM project V340120 (Health Risks of the application of nanotechnology in

consumer products) one of the additional knowledge questions of 2006 posed by the Food

and Consumer Product Safety Authority (VWA) was: “9.1.6a Start with an inventory of

possible exposure of consumers to products which are manufactured with nanotechnology or

which contain nanoparticles”.

There are no specific regulations concerning the authorization of products containing

nanomaterials. However from an inventory of consumer products containing nanomaterials in

the US, it is known that at least 475 consumer products which claim to have used

nanotechnology are available on the US market (Woodrow Wilson International Centre for

Scholars, 2007). To estimate the possible exposure of Dutch consumers you need to know

which type of products in which nanotechnology is used are or will become available on the

Dutch market. For this purpose an inventory of consumer products containing nanomaterials

in the Netherlands is being made. The available products and the description of these

products may give an indication of the potential exposure of consumers to nanomaterials

from the use of nanotechnology in consumer products.

2. Methods

For the inventory information was obtained from different sources. In Table 2.1 it is listed

which information was obtained from which data source.

Table 2.1: Information obtained from different data sources

Data source

Information about

a

Internet sites of Dutch manufacturers

Manufacturers and distributors

Available products and their application

Products under development

b

Woodrow Wilson International Centre

for Scholars database of consumer

products

Manufacturers

Available products and their application

c

Nanoshop database

Manufacturers

Available products and their application

c

Information from manufacturers present

at Nanosolutions in Köln

Manufacturers

Available products and their application

d

Internet sites of foreign manufacturers

Additional information to b and c

Products under development

e

Contact with Dutch manufacturers

Additional information to a

From the databases (b and c), only products from EU manufacturers or well known

multi-nationals were selected, since it was expected that products from these multimulti-nationals are also

available on the Dutch market. The available information on each product was put into an

excel file. A more specific description of each column in this file is given in Table 2.2.

Table 2.2: More specific description of the information obtained for each consumer

product

General information

Product nr.

our numbering of the products

Name of product

the name given by the manufacturer/distributor

Information about the manufacturers and distributors

Name of manufacturer

the name of the manufacturer

Country of manufacturing

the abbreviation of the country of the manufacturer

Country of distributors

the abbreviations of the countries of the distributors

Order via internet

possibility to order via internet (yes or no)

Information about type of product

Type product

category as in Woodrow Wilson International Centre for

_{Scholars database}

Subtype product

subcategory (see Table 2.3)

Information about the nanoparticles

Matrix nanoparticles

fluid, solid, powder, coating, gas, etc.

Chemical composition

gold, silver, TiO2, etc.

Reference

Source

database (e.g. Woodrow Wilson International Centre for

_{Scholars, Nanoshop) or internet search}

The different products were categorized into several product categories and subcategories,

similar to the categories used in the Woodrow Wilson International Centre for Scholars

database (see Table 4.1).

3. Limitations

It was not possible to obtain a complete overview of all consumer products containing

nanomaterials that are available on the Dutch market, since:

a)

there are products with the claim “nano” on the market that do not contain

nanomaterials and have not been produced with nanotechnology either

b)

not all producers advertise their products as such and there is (at present) no legal

obligation to inform consumers or label products that contain nanomaterials

c)

the amount of available products containing nanomaterials is large and fast growing

d)

it is difficult to find out in which countries or parts of the world the products are

available

Add a) an example of a false “nano” claim is the ‘Magic Nano’spray. This protective glass

and bathroom sealant that was recalled in late March 2006 in Germany after causing severe

breathing problems for some consumers, did not contain any nanoparticles (Small Times,

2006). Although no other examples of products with a false “nano claim” were encountered

yet, it cannot be excluded that this inventory includes such products, since it was not

confirmed if these products actually do contain nanomaterials.

Add b) in the UK, the Voluntary reporting scheme (VRS) for manufactured Nanomaterials

was launched on 22nd September 2006. An update on the scheme’s progress during its first 9

months, reported a total of 9 VRS submissions. The Advisory Committee for Hazardous

substances (ACHS) felt that the current low level of response to the scheme, and the variable

quality and relevance of data submitted was due, in part at least, to shortcomings in the

scheme guidance, particularly in defining how the data submitted will be used and what data

might be relevant. The Committee has recommended some changes to aid clarity in both the

data reporting form and VRS literature. These recommendations will be taken forward by

Defra (DEFRA, 2007).

Add c) as of May 2007, the Woodrow Wilson nanotechnology consumer products inventory

has grown by 124% (from 212 to 475 products) since it was released in March 2006

(Woodrow Wilson International Centre for Scholars, 2007).

Add d) although it is not always clear whether a product is available on the Dutch market, it

could be assumed that via Internet there is almost a world-wide availability of all kinds of

consumer products.

Therefore, the excel file listing the different consumer products probably does not contain all

the available products within each category and only includes consumer products which are

expected to contain nanomaterials based on the information from one of the databases or

internet sites. Since it was not confirmed if the products actually do contain nanomaterials,

some of these products may not contain nanomaterials.

4. Results

In total 143 consumer products containing nanomaterials were identified. Most of these

products belong to the category “Home furnishing & household products”. The subcategories

“Cleaning products” and “Coatings” contained many consumer products. The number of

products within each product category and subcategory can be found in Table 4.1.

Surprisingly, only two products were identified within the subcategory “Sun cosmetics”.

Since the use of nano-scaled titanium dioxide and zinc oxide in sun cosmetics is one of the

first and well known applications of nanomaterials in consumer products, this subcategory

was expected to contain a relatively large amount of products. One of the reasons for this

discrepancy may be that many sun cosmetics containing nanomaterials are probably not

advertised as such (anymore). Another reason may be that there are not as many sun

cosmetics containing nanomaterials on the market anymore. Since, the most important reason

for the relatively small amount of products identified within the subcategory “Sun cosmetics”

is unknown, it is impossible to estimate the actual amount of nanomaterial-containing sun

cosmetics available. The classification of the products into the different categories was

difficult. Although many products may belong to more than one category, each product was

assigned to one product category to avoid counting one product twice.

Table 4.1: Number of products per product category* and per subcategory

Type of product

Nr. Subtype of product

Nr.

Large Kitchen appliances (refrigerators)

2

Laundry and clothing care (washing machines)

3

Air Filtration and purification

Air Conditioning

Air/water Sanitizers/Neutralisers

Appliances

5

Batteries

Audio

1

Cameras and film

1

Computer hardware

2

Display

1

Mobile devices and communications

Television

Video

Electronics &

computers

7

Memory

2

Cleaning products

21

Cooking utensils (cutting board)

3

Furnishing (pillows, etc.)

Luxury (jewellery, etc.)

Construction materials

10

Home furnishing &

household products

42

Paint

8

Type of product

Nr. Subtype of product

Nr.

Maintenance and accessories (wax/air purification)

1

Food packaging

1

Food Packaging

1

Sensors in food packages

Sun cosmetics

2

Baby care products

Hair care (shampoo, gel, hair dyes, etc.)

Skin care (shower gel, creams, deodorant, foot care, shaving

soap, etc)

12

Oral hygiene (toothpaste, mouth wash)

1

Personal care

products & cosmetics

15

Make-up and nail care (lipstick, eye shadow, etc.)

Wound dressing

4

Hearing aids

Health

6

Other health products

2

Sporting goods

10 Rackets, bats, golf clubs, etc.

10

Clothing

12

Textile

15

Other textiles (sheets, etc.)

3

Toys

Toys & games

Games

Cross-cutting

(multi-functional)

28 Coatings (anti-fog, self-cleaning, etc.)

28

Miscellaneous

1

Miscellaneous

1

* Categories were modified from the database of the Woodrow Wilson International Centre for

Scholars

Information on the manufacturers and/or distributors of the products was not easily found for

many products. However, based on searches at various websites, it seems that most of the

products are manufactured outside the Netherlands, but have distributors within the

Netherlands and many other European countries. In addition, several products without a

Dutch manufacturer or distributor can be ordered via an internet sites. Therefore most of the

products (approximately 120) are expected to be available on the Dutch market.

Table 4.2: Number of products available on the Dutch market

Description

Nr %

Products from Dutch manufacturers

11

8

Products with Dutch distributors

114 80

Products without a Dutch manufacturer/distributor that can be ordered via internet

6

4

Products available on the Dutch market

120 84

From the description of the products on the websites or within the databases, it is not always

clear which nanomaterials are used and how they are incorporated into the products. Based

on the descriptions of the product, the way the nanomaterials were incorporated into the

product was inferred. Most of the products are liquids, sometimes contained within spray can

or in a bottle with a spray head. An overview of the different ways nanomaterials are

incorporated into the consumer products can be found in Table 4.3.

Table 4.3: Matrix used in consumer products containing nanomaterials.

Description

Nr

%

Matrix nanoparticles

liquids (fluids, sprays and moisturised tissues)

78

55

creams and pastes

13

9

solids, coatings and textiles

50

35

powder

1

1

gass

Only for a few products, information on the chemical composition of the nanomaterials was

obtained. An overview of the nanomaterials used within products from our inventory as well

as the Woodrow Wilson International Centre for Scholars database is given in Table 4.4.

Table 4.4: Chemical composition of nanomaterials in the consumer products

Our inventory

Woodrow Wilson*

Description

Nr

%

Nr

%

Chemical composition

silver

11

7

47

13

carbon (carbon nanotubes, carbon fibres)

6

4

40

11

silica

6

4

18

5

titanium and titanium dioxide

1

1

13

4

polymers

1

1

calcium phosphate

1

1

zinc oxide

17

5

cerium oxide

1

0

* Woodrow Wilson International Centre for Scholars Analysis November 26, 2006, containing 356

products

5. Conclusions

Within this project 143 consumer products which are a) expected to contain nanomaterials

and b) probably available at the Dutch market, were identified. However, it was not

confirmed if these products actually do contain nanomaterials. The list of identified products

probably does not contain all the available products, since there is no legal obligation to

inform consumers or label products that contain nanomaterials.

Most of the 143 identified consumer products containing nanomaterials belong to the

category “Home furnishing & household products”. The subcategories “Cleaning products”

and “Coatings” contained many consumer products. Most of the identified products

(approximately 120) are expected to be available on the Dutch market.

With respect to exposure, it is important to know if the nanomaterial is incorporated into

larger materials (which is the case for most solid applications) or if the material consists of

nanoparticles to be released in the air (as aerosols) or present in a liquid form (in an emulsion

or suspension). The potential exposure is expected to be much higher for this last two groups

of nanomaterials (nanoparticles). Therefore the potential exposure of consumers using

products containing liquids, creams, pastes and powders or available in spray application is

expected to be relatively high compared to solid products. However, if the nanomaterials are

not integrated into the matrix of larger materials, relatively high exposures may also be

possible during the use of solids, coatings or textiles. Inhalatory exposure is most likely to

occur with sprays and powders. Dermal exposure is most likely to occur with liquids, creams,

pastes, textiles and powders, especially skin care products. Oral exposure strongly depends

on the type of application, but is unlikely for most consumer products (except for products

like toothpastes). Since most consumer products (e.g.

fluids, sprays and moisturised tissues)

contain liquids, the potential inhalatory and dermal exposure of consumers during the use of

most of the consumer products may be relatively high. It should be noted, however, that this

potential exposure only indicates external exposure, which does not take into account if the

nanomaterials are taken up by the body.

The available information on the nanomaterials used within products from our inventory as

well as the Woodrow Wilson International Centre for Scholars database indicates that silver,

carbon and silica are the most widely used nanomaterials within consumer products.

However, since information about the chemical composition of nanoparticles was only

obtained for a few products, no firm conclusion with respect to most widely used

nanomaterials in consumer products can be made.

6. References

DEFRA (2007) The UK voluntary reporting scheme for engineered Nanoscale materials:

Third quarterly report, as at 22 June 2007. Available at:

http://www.defra.gov.uk/environment/nanotech/policy/pdf/vrs-report3.pdf

[Last accessed

July 2007].

Nanoforum (2006) Nanotechnology in Consumer Products. Available at:

http://www.nanoforum.org

[Last accessed April 2007].

Nanoshop (2007) The Nanotechnology Product Directory of Nanoshop. Available at:

http://www.nanoshop.com/index.php

[Last accessed April 2007].

Nanosolutions (2006) European Leading Event for Nano Business. Cologne, November

28-30, 2006.

Small Times (2006) Study shows no nano in Magic Nano, the German product recalled for

causing breathing problems. Available at:

http://www.smalltimes.com/Articles/Article_Display.cfm?ARTICLE_ID=270664&p=10

9

[Last accessed July 2007].

Woodrow Wilson International Centre for Scholars (2006) Analysis of The Nanotechnology

Consumer Inventory of November 26, 2006. Available at:

http://www.nanotechproject.org/44

[Last accessed April 2007]

Woodrow Wilson International Centre for Scholars (2007) The Nanotechnology Consumer

Inventory of the Woodrow Wilson International Centre for Scholars. Available at:

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In te rn et s ea rc h w w w .p ro w in 22 N an o St on e Pr oW IN N L N L, B E no C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? In te rn et s ea rc h w w w .p ro w in 23 N an o Te xt ie l Pr oW IN N L N L, B E no C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? In te rn et s ea rc h w w w .p ro w in 24 N an o-H ol z-Pr ot ec to r D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .d ec ie .d 25 N an o-K un st st of f-Pr ot ec to r D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .d ec ie .d 26 N an o-M ar m or -P ro te ct or D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .d ec ie .d 27 N an o-M et al l-P ro te ct or D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .d ec ie .d 28 N an o-St ei n-Pr ot ec to r D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .d ec ie .d 29 X -c le an E C N an o-X D U ? no C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .n an o-x. 30 X -v ie w P K N an o-X D U ? no C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay ? N an os ol ut io ns w w w .n an o-x. 31 X -c le an A O N an o-X D U ? no C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) sp ra y or p ai nt ? N an os ol ut io ns w w w .n an o-x. 32 N an o-G la s-Pr ot ec to r D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) tis su e / s pr ay ? N an os ol ut io ns w w w .d ec ie .d 33 N an o-Te xt il-Le de r-Pr ot ec to r D e C ie G m bH (N an ot ec hn ol og y) D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) tis su e / s pr ay ? N an os ol ut io ns w w w .d ec ie .d 34 na no to l® P rim er /R ei ni ge r & V er si eg el un g N an ot ol ® H an de ls ge se lls ch af t, D U C H , D K , A T ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id po ly m er s N an os ol ut io ns w w w .n an ot ol 35 La se r e ye p ro te ct io n La se rv is io n D U C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) co at in g na no sh op ht tp :// w w w .lv 36 A nt i-c on de ns at io n fo r G la ss Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 37 A nt i-c on de ns at io n fo r S yn th et ic M at er ia ls Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 38 G la ss es P ro te ct io n 3 Pl us Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 39 N an o gl as s & c er am ic s co at in g Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 40 N an o G la ss -s ea lin g SR Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 41 N an o Pl as tic s Se al an t Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 42 N an ot ec hn ol og y C hr om e & S ta in le ss S te el Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /s pr ay In te rn et s ea rc h w w w .rv d-se 43 D at a Fl as h B es ch er m in gs ki t N an o M ul ti K le in m an n D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) flu id /ti ss ue In te rn et s ea rc h ht tp :// di sc ou 44 N an ot ec hn ol og y M ul ti Fo am Pe rc en t L td . D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) Fo am /s pr ay In te rn et s ea rc h w w w .rv d-se 45 H ol m en ko l L ub e ‘n S pe ed H O LM E N K O L Sp or t-D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) sp ra y In te rn et s ea rc h w w w .v er w oe 46 H ol m en ko l S ea l ' n G lid e H O LM E N K O L Sp or t-D U N L, o th er E U c ou nt ri es ye s C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) sp ra y In te rn et s ea rc h w w w .v er w oe 47 Po w er Im pr eg na tio n+ ca re H O LM E N K O L Sp or t-D U N L, o th er E U c ou nt ri es C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-f og , s el f-cl ea ni ng , e tc .) sp ra y W oo dr ow W ils on ht tp :// w w w .h

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, .) etc Che mic al c om pos itio n (g old , ) tc. 2, e iO T er, silv Sou rce Web site pr odu ct 48 N an o A nt i-B es la g K le in m an n D U C ro ss -c ut tin g (m ul ti-fu nc tio na l) C ro ss -C oa tin gs (a nt i-fo g, s el f-cl ea ni ng , e tc .) tis su e/ fl ui d W oo dr ow W ils on w w w .k le in m an n. 49 C re at iv e Z en N an o Pl us C re at iv e Si ng ap or e N L , o th er E U c ou nt ri es ye s E le ct ro ni cs & c om pu te rs E le c-A ud io so lid In te rn et s ea rc h w w w .c re at iv e. co 50 N eo x th e ne xt g en er at io n pa pe r N eo x A U N L , o th er E U c ou nt ri es E le ct ro ni cs & c om pu te rs E le c-C am er as a nd fi lm so lid na no sh op w w w .m on di bp .c 51 C PU (c en tr al p ro ce ss in g un it) o f e ve ry M an y N L , o th er E U c ou nt ri es ye s E le ct ro ni cs & c om pu te rs E le c-C om pu te r h ar dw ar e so lid na no fo ru m 52 H ar d di sk d ri ve s of a ll co m pu te rs M an y N L , o th er E U c ou nt ri es ye s E le ct ro ni cs & c om pu te rs E le c-C om pu te r h ar dw ar e so lid na no fo ru m 53 L E D ( lig ht e m itt in g di od ) b as ed c on su m er M an y N L , o th er E U c ou nt ri es ye s E le ct ro ni cs & c om pu te rs E le c-D is pl ay so lid na no fo ru m 54 el ec tr ic al ly p ro gr am m ab le F us e (e Fu se ), an C av en di sh K in et ic s N L N L , U K no E le ct ro ni cs & c om pu te rs E le c-M em or y so lid in te rn et s ea rc h w w w .c av en di sh -k 55 fl as h m em or y ba se d co ns um er p ro du ct s M an y N L , o th er E U c ou nt ri es ye s E le ct ro ni cs & c om pu te rs E le c-M em or y so lid na no fo ru m 56 Fi rs t r es po ns e pr eg na nc y te st C hu rc h & D w ig ht U K ye s H ea lth H ea lth -O th er h ea lth p ro du ct s fl ui d/ ge l na no sh op ht tp :// w w w .c hu rc 57 B ep an th en C oo lin g Fo am S pr ay B ay er C on su m er C ar e L td . C H N L , ye s H ea lth H ea lth -O th er h ea lth p ro du ct s sp ra y In te rn et s ea rc h w w w .d ro gi st er ij. 58 A ct ic oa t* 7 a nt im ic ro bi ee l b ar ri er ek om pr es Sm ith & N ep he w U K N L , o th er E U c ou nt ri es no H ea lth H ea lth -W ou nd d re ss in g fl ui d/ ge l si lv er W oo dr ow W ils on ht tp :// w ou nd .s m ith 59 A ct ic oa t* A bs or be nt z ilv er ge co at Sm ith & N ep he w U K N L , o th er E U c ou nt ri es no H ea lth H ea lth -W ou nd d re ss in g fl ui d/ ge l si lv er W oo dr ow W ils on ht tp :// w ou nd .s m ith 60 A ct ic oa t* a nt im ic ro bi ee l b ar ri er ek om pr es Sm ith & N ep he w U K N L , o th er E U c ou nt ri es no H ea lth H ea lth -W ou nd d re ss in g fl ui d/ ge l si lv er W oo dr ow W ils on ht tp :// w ou nd .s m ith 61 A ct ic oa t* M oi st ur e C on tr ol a nt im ic ro bi ee l Sm ith & N ep he w U K N L , o th er E U c ou nt ri es no H ea lth H ea lth -W ou nd d re ss in g fl ui d/ ge l si lv er W oo dr ow W ils on ht tp :// w ou nd .s m ith 62 A A A B SO L U T N A N O B L A U , n ic ht A A A B SO LU T N A N O C H ? ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d ? N an os ol ut io ns w w w .a aa bs ol ut .c 63 A A A B SO L U T N A N O R O T , s au ge nd e A A A B SO LU T N A N O C H ? ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d ? N an os ol ut io ns w w w .a aa bs ol ut .c 64 N an o K oe lk as t A nt ib ac Pr oW IN N L N L , B E no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y ? In te rn et s ea rc h w w w .p ro w in -in fo 65 N an o pr ec le an Pr oW IN N L N L , B E no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y ? In te rn et s ea rc h w w w .p ro w in -in fo 66 N an o Sc hi m m el ki lle r Pr oW IN N L N L , B E no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y ? In te rn et s ea rc h w w w .p ro w in -in fo 67 N an o-G la sr ei ni ge r D e C ie G m bH (N an ot ec hn ol og y) D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y ? N an os ol ut io ns w w w .d ec ie .d e/ na 68 A A A B SO L U T N A N O fü r A qu ar ie n A A A B SO LU T N A N O C H ? ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ tis su e ? N an os ol ut io ns w w w .a aa bs ol ut .c 69 A nt is lip S pr ay Pr oW IN N L N L , B E no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y ? In te rn et s ea rc h w w w .p ro w in -in fo 70 C ol lo ni l N an oc re am C ol lo ni l S al ze nb ro dt G m bH & C o. D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts cr ea m In te rn et s ea rc h w w w .z w er fk ei .n 71 C er an s qu ar e se al in g Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct H om e-C le an in g pr od uc ts fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 72 N an o A nt is ta tic fo r La m in at e Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 73 N an o L ee r & T ex tie l C oa tin g (N an o Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 74 N an o M eu be lg la ns A nt is ta tis ch Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 75 N A N O R eg en -/S ne eu w sp ra y ?? D U N L ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y In te rn et s ea rc h w w w .k lin ge l.n l 76 N an o V oc ht -e n V ui lb lo ck er D ei ch m an n D U N L , o th er E U c ou nt ri es no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y In te rn et s ea rc h w w w .v an ha re n. nl 77 T an a N an o vu il-pr ot ec to r Sa ra L ee C an ad a N L , o th er E U c ou nt ri es no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y In te rn et s ea rc h w w w .b in k. be 78 C ol lo ni l N an op ro s pr ay C ol lo ni l S al ze nb ro dt G m bH & C o. D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y In te rn et s ea rc h w w w .z w er fk ei .n 79 H ol m en ko l T ex til e Pr oo f H O L M E N K O L S po rt -D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y In te rn et s ea rc h w w w .v er w oe rd -w 80 N oF og +c le an H O L M E N K O L S po rt -D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y W oo dr ow W ils on ht tp :// w w w .h ol m 81 Sp or tP ro of +C ar e H O L M E N K O L S po rt -D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y W oo dr ow W ils on ht tp :// w w w .h ol m 82 N an o T ex til -/L ed er -V er si eg el un g K le in m an n D U H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C le an in g pr od uc ts sp ra y W oo dr ow W ils on w w w .k le in m an n. 83 N an o so il se al in g fo r s uc ki ng s ub so ils Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 84 So il se al in g fo r l ow - t o no n-su ck in g su bs oi ls Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 85 W oo d & S to ne S ea lin g (a ls o Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es 86 E m ac o N an oC re te B A SF D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls po w de r na no sh op ht tp :// w w w .e m ac 87 A E R O SI L ® O X 5 0 Fi re re si st an t g la ss D eg us sa D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// w w w .d eg us 88 se lf c le an in g til e D eu ts ch e St ei nz eu g D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// w w w .d eu ts 89 se lf c le an in g ro of ti le s E rl us A G D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// w w w .e rl us 90 Pi lk in gt on A ct iv s el f c le an in g gl as s Pi lk in gt on U K N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// w w w .p ilk in 91 B IO C L E A N S E L F-C L E A N IN G G L A SS Sa in t G ob ai n G la ss U K N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// be nl .s ai nt -g 92 G eo hu m us s oi l e nh an ce r G eo hu m us D U H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C on st ru ct io n m at er ia ls so lid na no sh op ht tp :// w w w .g eo hu 93 N an o-si lv er c ho pp in g bo ar d Fi ne Po ly m er , I nc . K or ea D U , S I, IT no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C oo ki ng u te ns ils (c ut tin g bo ar d) so lid na no -s ilv er N an os ol ut io ns w w w .w el m er in g. 94 N an o-Fl on 3 -d el ig e pa nn en se t ?? N L ye s H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C oo ki ng u te ns ils (c ut tin g bo ar d) so lid In te rn et s ea rc h w w w .k lin ge l.n l 95 T he S w is s D ia m on d C oo kw ar e Sw is s D ia m on d C H U K , F R , A U , B G , e tc . H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-C oo ki ng u te ns ils (c ut tin g bo ar d) so lid na no sh op ht tp :// w w w .s w is sd

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, .) etc Che mic al c om pos itio n (g old , ) tc. 2, e iO T er, silv Sou rce Web site pr odu ct 96 B io ni C le an B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d ? N an os ol ut io ns w w w .n an o-co at in gs 97 B io ni G ri p B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d ? N an os ol ut io ns w w w .n an o-co at in gs 98 B io ni H yg ie ni c B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d ? N an os ol ut io ns w w w .n an o-co at in gs 99 B io ni N at ur e B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d ? N an os ol ut io ns w w w .n an o-co at in gs 10 0B io ni R oo f B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d bi nd er s an d N an os ol ut io ns w w w .n an o-co at in gs 10 1B io ni P er fo rm B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d bi nd er s an d N an os ol ut io ns w w w .n an o-co at in gs 10 2 B io ni C om fo rt B io ni C S G m bH D U B E , L U , A T , E S, C H no H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d si lic at e N an os ol ut io ns w w w .n an o-co at in gs 10 3 St oL ot us an p ai nt w ith lo tu s-ef fe ct St o A G D U N L , o th er E U c ou nt ri es H om e fu rn is hi ng & h ou se ho ld p ro du ct s H om e-Pa in t fl ui d In te rn et s ea rc h w w w .s to .n l 10 4 O ve rh ea ds tif t ST A E D T L E R ® D U N L ye s M is ce lla ne ou s M is c-M is ce lla ne ou s fl ui d In te rn et s ea rc h ht tp :// di sc ou nt of fi ce 10 5 A A A B SO L U T N A N O s ac he t f ur A A A B SO LU T N A N O C H ? ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) tis su e ? N an os ol ut io ns w w w .a aa bs ol ut .c h/ 10 6 N an o-A nt ib es ch la g D e C ie G m bH ( N an ot ec hn ol og y) D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) tis su e / s pr ay ? N an os ol ut io ns w w w .d ec ie .d e/ na no 10 7N an o-Fe lg en -P ro te ct or D e C ie G m bH ( N an ot ec hn ol og y) D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) tis su e / s pr ay ? N an os ol ut io ns w w w .d ec ie .d e/ na no 10 8 N an o G la s Pr ot ec to r ? N L no M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) ? In te rn et s ea rc h w w w .h al fo rd s. nl 10 9 M er ce de s-B en z pa in t f in is h by D ai m le r D ai m le r C hr ys le r D U N L , o th er E U c ou nt ri es M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) co at in g W oo dr ow W ils on w w w .d ai m le rc hr ys le 11 0 C ar 2 C om po ne nt P ai nt S ea lin g Se t Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es .c 11 1 C ar G la ss C oa tin g Se t Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es .c 11 2 N an o 2 C om po ne nt b oa t's s ea lin g Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es .c 11 3N an o R im S ea la nt Pe rc en t L td . D U N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h w w w .rv d-se rv ic es .c 11 4N an o La kb es ch er m in g A N W B N L N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h ht tp s: //w eb w in ke l.a 11 5N an o R ui te nb es ch er m in g A N W B N L N L , o th er E U c ou nt ri es ye s M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) fl ui d/ sp ra y In te rn et s ea rc h ht tp s: //w eb w in ke l.a 11 6 N an o Fe lg en -V er si eg el un g K le in m an n D U M ot or v eh ic le s M ot or -E xt er io r (c oa tin g/ pa in , t ie rs ) tis su e/ fl ui d W oo dr ow W ils on w w w .k le in m an n. ne 11 7E nv ir ox O xo ni ca U K M ot or v eh ic le s M ot or -M ai nt en an ce a nd a cc es so ri es (w ax /a ir fl ui d na no sh op ht tp :// w w w .o xo ni ca 11 8 N an o-Si lv er F re sh B ox ® Fi ne Po ly m er , I nc . K or ea D U , S I, IT no Pa ck ag es ( in cl . f or fo od ) Pa ck -F oo d pa ck ag in g so lid si lv er N an os ol ut io ns w w w .w el m er in g. de 11 9 B ab ol at ® N S™ T ou r T en ni s R ac ke t B ab ol at FR N L , o th er E U c ou nt ri es Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid C ar bo n W oo dr ow W ils on w w w .b ab ol at .c om 12 0 B ab ol at ® N S™ D ri ve T en ni s R ac ke t B ab ol at FR N L , o th er E U c ou nt ri es Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid C ar bo n W oo dr ow W ils on w w w .b ab ol at .c om 12 1 Pr o' s Pr o N an os pe ed 5 00 0 te nn is ra ck et N L , o th er E U c ou nt ri es ye s Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid ca rb on In te rn et s ea rc h w w w .p ow er te nn is .n 12 2M on tr ea l h oc ke y st ic k M on tr ea l FI N L , o th er E U c ou nt ri es Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid ca rb on n an o tu be na no sh op ht tp :// w w w .m on tr ea 12 3M on ke yl ite S L E as to n U K N L , o th er E U c ou nt ri es Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid ca rb on n an o tu be na no sh op ht tp :// w w w .e as to nb 12 4 A to m ic S no w ® Iz or S ki s A to m ic S no w FI N L , o th er E U c ou nt ri es Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid si lic on o xi de c ry st al sW oo dr ow W ils on w w w .a to m ic sn ow .c 12 5 H ea d N an o-T ita ni um T en ni s R ac qu et s by H ea d A T N L , o th er E U c ou nt ri es ye s, Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid tit an iu m W oo dr ow W ils on w w w .h ea d. co m 12 6N an ob al l N an o S G m bH D U Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid na no sh op ht tp :// w w w .n an o- s-12 7 Pr o' s Pr o N an o C yb er P ow er 3 x 2 00 m N L , o th er E U c ou nt ri es ye s Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . so lid In te rn et s ea rc h w w w .p ow er te nn is .n 12 8 O ut do or s ch oe n m et N an oS ph er e R ai ch le U rb an C H no Sp or tin g go od s Sp or t-R ac ke ts , b at s, g ol f c lu bs , e tc . te xt ile In te rn et s ea rc h w w w .h ik in g-12 9O ve rh em d ?? N L ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile In te rn et s ea rc h w w w .k lin ge l.n l 13 0Pa nt al on ?? N L ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile In te rn et s ea rc h w w w .k lin ge l.n l 13 1 E le m en ts N an o-T ex J ac ke t b y Ja ck W ol fs ki n Ja ck W ol fs ki n D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .ja ck -w ol fs ki n. 13 2 H og ga r N an o-T ex P an ts b y Ja ck W ol fs ki n Ja ck W ol fs ki n D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .ja ck -w ol fs ki n. 13 3 N or th Pa nt s N an o-T ex P an ts b y Ja ck Ja ck W ol fs ki n D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .ja ck -w ol fs ki n. 13 4 O ve rs ea s N an o-T ex J ac ke t b y Ja ck W ol fs ki nJa ck W ol fs ki n D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .ja ck -w ol fs ki n. 13 5 N an o T ro us er s by P ro -I de e G m bH Pr o-Id ee G m bH D U N L , o th er E U c ou nt ri es ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .p ro id ee .c o. uk 13 6Sc ho ff el H ea t p an t Sc hö ff el S po rt be kl ei du ng G m bH D U N L , o th er E U c ou nt ri es no T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile In te rn et s ea rc h w w w .z w er fk ei .n l 13 7O ve rh em de n Fr es c W or k N L N L , o th er E U c ou nt ri es ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile In te rn et s ea rc h w w w .fr es c-w or k. co 13 8 Sh ie ld -s ys te m g lo ve s Fr an z Z ie ne r G m bH & C o. D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .z ie ne r.d e 13 9 T ai fu n N an o-T ex J ac ke t Ja ck W ol fs ki n D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on w w w .ja ck -w ol fs ki n. 14 0 Sa fa ri J ac ke t Pr o-Id ee G m bH & C o. K G D U N L , o th er E U c ou nt ri es ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-C lo th in g te xt ile W oo dr ow W ils on ht tp :// w w w .p ro id ee 14 1 T af el la ke n en s er ve tte n ?? N L ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-O th er te xt ile s (s he et s, e tc .) te xt ile In te rn et s ea rc h w w w .k lin ge l.n l 14 2ill um in at ed b us in es s ha nd ba g B re e D U N L , o th er E U c ou nt ri es T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-O th er te xt ile s (s he et s, e tc .) te xt ile na no sh op ht tp :// w w w .b re e. de 14 3 N an oN un o U m br el la b y Pr o-Id ee G m bH Pr o-Id ee G m bH D U N L , o th er E U c ou nt ri es ye s T ex til e (i nc l. cl ot he s & u ph ol st er y) T ex t-O th er te xt ile s (s he et s, e tc .) te xt ile W oo dr ow W ils on w w w .p ro id ee .c o. uk