P can generally be 50 nm100 nm - Heraeus Group · particularly in the electronics industry, which were previously not possible. film which is conductive and transparent. With poly

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Coating Guide Clevios™ P Formulations Issue 03/2012

Introduction

Generally speaking, polymers are insulators. However there is a special class of polymers – the intrinsically conductive polymers – that have conductivity levels between those of semiconductors and metals (up to 102 - 103 S/cm). The combination of metallic and polymeric properties opens completely new opportunities, particularly in the electronics industry, which were previously not possible.

With poly(3,4-ethylenedioxythiophene) or briefly named PEDT or PEDOT – available under the trade name Clevios™ - Heraeus has developed the latest generation of conductive polymers which are characterized by outstanding properties:

High conductivity

High transparency

High stability

Easy processing

1. Coating with Clevios™

Clevios™ allows plastics, especially films, and glass to be coated with a conductive, transparent and durable PEDOT layer (see Figs .1 and 2).

In most applications, surface conductivity can be achieved using very thin films (< 1 µm) of Clevios™ conductive polymers (cp. Fig. 2).

The PEDOT layer can be applied by using the aqueous polymer dispersion Clevios™ P or by direct (in-situ) polymerization of the monomer Clevios™ M with the oxidizer Clevios™ C.

The use of CLEVIOS™ P can generally be recommended in most applications.

2. Coating with Clevios™ P

Clevios™ P is a waterborne dispersion of the polymer complex poly (3,4-ethylenedioxy-thiophene)/ polystyrene sulfonate (PEDOT:PSS). The dispersion consists of submicrometer sized gel particles which upon drying form a continuous film which is conductive and transparent.

Clevios™ P is typically considered a raw material and is most often formulated by end users into a coating for plastics, glass and other substrates. To assist customers in their formulation work with Clevios™ P, we have developed several coating formulations that contain Clevios™ P. These coating formulations have been optimized for

individual substrates, such as, PVC, polycarbonate, glass, etc. at different wet film thicknesses and surface resistivities. The coatings may be applied by conventional coating methods such as brushing, spin-coating, printing processes, spraying, dipping, and roller-coating techniques. Other binding agents may be added. For more information about different formulations that were developed by Heraeus to assist the customer, please see our Guide Formulations.

The coatings are physically dried in an oven at temperatures between 80 to 120 °C. The drying time depends on coating thickness, temperature and air humidity and should be determined by

0

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300 400 500 600 700 800

Wavelength [nm]

Tra

ns

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sio

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%]

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100 nm

200 nm

500 nm

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Layer Thickness :

1E+2

1E+3

1E+4

1E+5

1E+6

1E+7

1E+8

1E+9

0,00 0,25 0,50 0,75 1,00 1,25 1,50

Dry film thickness [µm]

R [

Ohm

s/s

qr] CPP 103D (high binder content)

CPP 105D (low binder content)

Fig. 2 Surface resistance vs. layer thickness

Fig. 1 Transmission of light vs. PEDOT:PSS dry layer thickness

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appropriate application tests. The minimum drying time, limited by the evaporation rate of water from the polymer gel is about 30 to 60 seconds.

3. Antistatic Coating of Plastics

Static charge on plastic surfaces leads to numerous problems. Coating with Clevios™ allows plastic surfaces to be given an antistatic finish.

Virtually all plastics can be coated with Clevios™ P, including polycarbonate, polyethylene, polyethylene terephthalate, polyamide, and polypropylene. A surface activation like Corona treatment should be performed prior to coating in the case of PET and polyolefins to enhance adhesion to the substrate.

Typical applications for Clevios™-based antistatic and static dissipative coatings on plastic surfaces:

Electronic packaging (carrier tapes, bags, boxes)

Plastic electronic component housings and windows

Clean-room packaging

Thermoformable coatings can be obtained by using „soft“binders as contained in CPP 4531II type guide formulation. Such coatings can be stretched by more than 200% during deep drawing. By this the initial surface resistance is increased by one or two orders of magnitude only.

4. Coating of Glass

It is also possible to produce transparent, conductive coatings on glass using Clevios™.

Typical applications for Clevios™-based coating on glass:

Monitors and TV screens (antistatic effect, shielding)

Glass apparatus in explosion-hazard areas

By combining Clevios™ with silanes, e.g. tetraethoxysilane, high hardness, scratch resistance, and surface resistance can be

obtained. For achieving optimum hardness curing temperatures of about 180°C are required.

Scratch-resistant antistatic coating

Guide formulation CPG 130.6 allows the application of antistatic coatings with good scratch resistance.

Surface resistance: < 106 Ohm/ Pencil hardness: 9 H Quantity of Clevios™ P used per m2: approx. 2g (spray application)

Highly conductive coatings

Higher conductivity can be achieved by using guide formulation CPP 105D. The hardness of the coating is; however, lower than when using guide formulation CPG 130.6.

Surface resistance: < 103 Ohm/ Quantity of Clevios™ P used per m2: approx. 6 g

The Clevios™ coatings can be either applied by spraying or the spin-coating method.

Other Highly Conductive formulations are available only as ready to use products.

5. Electrostatic Coatings

As a rule, plastic components cannot be coated electrostatically as their surfaces are not electrically conductive. Coating with CLEVIOS™ generates the necessary surface conductivity.

Possible coating methods:

Powder coating

Electrostatic spray coating (wet)

Suitable formulations based on our recommendations permit good adhesion and conductivity of the primer coats on many plastic substrates (e.g. polyurethane, polypropylene).

Advantages over carbon black-filled primers and plastics:

The necessary surface conductivity can be attained with very thin films.

The transparency of Clevios™ allows the use of light brilliant coatings.

There are no negative effects on the mechanical properties of the plastic.

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We recommend guide formulation CPP 4531 E3D for the conductive coating of plastics as pre-treatment for electrostatic coating. Wet film thickness: 2-4 µm

Surface resistance: < 107 Ohm/ Quantity of Clevios™ P coating per m2: approx. 0.75 to 1.5 g

Other Clevios™ coating formulations may also be used as electrostatic primer coatings.

For more information, see below.

6. Clevios™ Coating Guide Formulations

To assist customers in their formulation work with Clevios™ conductive polymers, we have developed several coating formulations that contain Clevios™ P. These coating formulations have been optimized for individual substrates, such as PVC, polycarbonate, glass, etc. at different wet film thicknesses and surface resistivities and are mainly used for dissipation of static surface charges on various substrates. The coatings may be applied by conventional coating methods such as brushing, spin-coating, printing processes, spraying, dipping, and roller coating techniques. Clevios™ Guide Formulations include:

CPP 103D: For antistatic coatings with good adhesion properties on many plastic surfaces.

CPP 105D: For antistatic coatings with higher conductivity, good adhesion properties on plastic and glass surfaces, and resistance to both aliphatic and aromatic hydrocarbon solvents.

CPP 116.6D: For antistatic coatings with good adhesion properties on polycarbonate or PVC plastic surfaces.

CPP 134.18D: For highly transparent static dissipative coatings with good adhesion properties on polycarbonate or PVC plastic surfaces. Good for dip-coating applications.

CPP 135D: For alcohol-resistant transparent dissipative coatings with good adhesion properties on polycarbonate or PVC plastic surfaces.

CPP 141D: For the application of clear, hard, alcohol-resistant, antistatic coatings with good adhesion properties on aluminium, polycarbonate, and PVC surfaces.

CPP 4531II: For thermoformable coatings with good adhesion properties on many plastic surfaces.

CPP 4531E3D: For conductive coatings on plastic surfaces as pre-treatment for electrostatic coating. This formulation is especially suitable for coatings on corona-treated polyethylene and/or polypropylene.

CPG 130.6: For scratch-resistant antistatic coatings with good adhesion properties on glass surface.

Please note: the guide formulations are not standard sales items. The delivery of any formulation is only after advance agreement.

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Clevios™ Coating Guide Formulation CPP 103D

For clear antistatic coatings with good adhesion properties on plastic surfaces. Wet film thickness: 6 µm Quantity of Clevios™ P used per m2: 1.5 g Surface resistivity: 107-108 Ohm/sq

Properties of the dispersion (approximate values)

Solid content: 12 % Viscosity: 60 mPa.s pH value: 8 Density: 0.979 g/cm3

COMPONENT

% BY WEIGHT

Clevios™ P 25.86

Dimethylaminoethanol, 50% in water 0.12

Alberdingk Boley U910 38.79

N-Methyl-2-pyrrolidone 9.05

Silquest® A 187™ 0.26

Isopropanol 25.62

Dynol™ 604 0.30

Total 100.00

All components must be mixed in the above order under constant agitation. The coating can be applied by conventional coating methods such as brushing, spin-

coating, printing, spraying, and roller-coating. Corona treatment should be performed prior to coating polypropylene or polyethylene

substrates. Coating should be cured at approximately 80-120°C for a minimum of 3 to 5 minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,

Part 30) or ASTM D 257.

NB: The condition of your use and application of our products, technical assistance and information (whether verbal, written or by way of productions evaluations) including any suggested formulations and recommendations, are beyond our control. Therefore it is imperative that you

test our products, technical assistance and information to determine to your own satisfaction whether they are suitable for your intended uses and applications. This application specific analysis at least must include testing to determine the suitability from a technical as well as health, safety

and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise, incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein

is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to

herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General Conditions of Sale and Delivery.

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Clevios™ Coating Guide Formulation CPP 105D For antistatic coatings with higher conductivity. Good adhesion properties on plastic and glass surfaces, and resistance to both aliphatic and aromatic hydrocarbon solvents.

On plastic On glass Wet film thickness 6 µm 12 µm Surface resistivity < 104 Ohm/sq < 103 Ohm/sq Quantity of Clevios™ P 2.6 g 5.2 g used per m2

Properties of the dispersion (approximate values) Solid content: 1.2 % Viscosity: 30 mPa.s pH value: 2.8 Density: 0.900 g/cm3

COMPONENT

% BY WEIGHT

Clevios™ P 42.92



Isopropanol 53.34

Dynol™ 604 0.30

Total 100.00

All components must be mixed in the above order under constant agitation. The coating can be applied by conventional coating methods such as brushing, spin-

coating, printing, spraying, and roller-coating. Corona treatment should be performed prior to coating polypropylene or polyethylene

substrates. Coating should be cured at approximately 80-120°C for a minimum of 3 to 5 minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,






herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General Conditions of Sale and Delivery.

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Clevios™ Coating Guide Formulation CPP 116.6D

For the application of antistatic coatings with good adhesion properties on polycarbonate or PVC plastic surfaces. Wet film thickness 6 µm 12 µm 18 µm Surface resistivity 5 x 105 Ohm/sq 2 x 105 Ohm/sq 5 x 104 Ohm/sq Quantity of Clevios™ P used per m2 1.4 g 2.8 g 4.3 g

Above values are approximate.

COMPONENT

% BY WEIGHT

Clevios™ P 23.90


Sancure® 825 17.90


Deionized water 19.89

Isopropanol 29.90

n-Butanol 7.89

Dynol™ 604 0.10

Total 100.00

All components must be mixed in the above order under constant agitation. The coating

can be applied by conventional coating methods such as printing, pour-coating, or dip-coating.

The coated film/sheet should be dried at approximately 80-120 °C for at least 3 to 5 minutes.

Surface resistivity measurements made according to IEC Standard 93 (VDE 0303, Part 30) or ASTM D 257.





herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General

Conditions of Sale and Delivery.

7

Clevios™ Coating Guide Formulation CPP 134.18D

For the application of highly transparent static dissipative coatings with good adhesion properties on polycarbonate or PVC plastic surfaces. This formulation has been used to dip coat irregularly shaped plastic articles.

Wet film thickness 20 µm Surface resistivity 1 x 106 Ohm/sq Quantity of Clevios™ P used per m2 1.7 g Properties of the dispersion (approximate values) Solid content: 2.2 % Viscosity: 10 mPa.s pH value: 8 Density: 0.926 g/cm3

COMPONENT

% BY WEIGHT

Clevios™ P 8.62



Isopropanol 41.58

Sancure® 825 6.47

n-Butanol 1.50


Dynol™ 604 0.10

Total 100.00

All components must be mixed in the above order under constant agitation. The coating can be applied by conventional coating methods such as printing, pour-

coating, or dip-coating. The coated film/sheet or plastic article should be dried at approximately 80 -120°C for at

least 3 to 5 minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,




and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise,

incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to



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Clevios™ Coating Guide Formulation CPP 135D For the application of alcohol-resistant transparent static dissipative coatings with good adhesion properties on polycarbonate or PVC plastic surfaces. Wet film thickness 6 µm 18 µm Surface resistivity 5 x 105 Ohm/sq 5 x 104 Ohm/sq Quantity of Clevios™ P used per m2 1.5 g 4.5 g Properties of the dispersion (approximate values) Solid content: 8% Viscosity: 25 mPa.s pH value: 8 Density: 0.959 g/cm3

COMPONENT

% BY WEIGHT

Clevios™ P 24.20


NeoRez® R986 20.20



Isopropanol 30.30


Dynol™ 604 0.11

Total 100.00

All components must be mixed in the above order under constant agitation. The coating mixture should be filtered through a 3 or 5 micron filter twice before using:

once directly after mixing and again six hours later. The coating can be applied by conventional coating methods such as printing, pour-

coating, or dip-coating. Spray coating has not yet been tested. The coated film/sheet should be dried at approximately 80-120 °C for at least 3 to 5

minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,




and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise,

incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to



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Clevios™ Coating Guide Formulation CPP 141D For clear, hard, alcohol-resistant, antistatic coatings with good adhesion properties on aluminium, polycarbonate, and PVC surfaces.

Wet film thickness 4 to 6 µm Surface Resistivity 106 Ohm/sq Transmission at 550 nm > 95% [for 4 to 12 µm wet film thicknesses] Quantity of Clevios™ P used per m2 2.1 to 3.2 g

Properties of the dispersion (approximate values) Solid content: 18 % Viscosity: 25 mPa.s pH value: 8

COMPONENT

% BY WEIGHT

Clevios™ P 52.6


NeoRez® R986 31.4

Eastek® 1200-02-30% 10.5

Isopropanol 2.0


Dynol™ 604 0.1

Total 100.00

All components must be mixed in the above order under constant agitation. The coating can be applied by conventional coating methods such as printing, pour-

coating, dip-coating, and spray coating. The coated film/sheet should be dried at approximately 80-120°C for at least 3 to 5

minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,


NB: The condition of your use and application of our products, technical assistance and information (whether verbal, written or by way of

productions evaluations) including any suggested formulations and recommendations, are beyond our control. Therefore it is imperative that you test our products, technical assistance and information to determine to your own satisfaction whether they are suitable for your intended uses and

applications. This application specific analysis at least must include testing to determine the suitability from a technical as well as health, safety and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise,

incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents

covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of

the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General Conditions of Sale and Delivery.

10

Clevios™ Coating Guide Formulation CPP 4531II

For the application of thermoformable coatings with good adhesion properties on plastic surfaces. Even after thermoforming, the PEDT coating is still conductive enough to guarantee an antistatic effect. Wet film thickness: 4 µm 6 µm 24 µm

Surface resistivity: < 105 Ohm/sq 3.0 x 104 Ohm/sq 9.0 x 103 Ohm/sq Quantity of Clevios™ P used in coating: 2.3 g/m2 3.45 g/m2 13.8 g/m2 Properties of the dispersion (approximate values) Solid content: 8 % Viscosity: 70 mPa.s pH value: 2

.

COMPONENT

% BY WEIGHT

Clevios™ P 57.65

Bayderm Finish 85UD-N*/ Bayhydrol 140AQ 15.63


Isopropanol 23.24

Total 100.00

*Not TOSCA listed

All components must be mixed in the above order under constant agitation. The coating

can be applied by conventional coating methods such as brushing, spin-coating, printing, spraying, and roller-coating.

Corona treatment should be performed prior to coating polypropylene or polyethylene substrates.

Coating should be cured at approximately 80-120°C for a minimum of 3 to 5 minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,


NB: The condition of your use and application of our products, technical assistance and information (whether verbal, written or by way of

productions evaluations) including any suggested formulations and recommendations, are beyond our control. Therefore it is imperative that you test our products, technical assistance and information to determine to your own satisfaction whether they are suitable for your intended uses and

applications. This application specific analysis at least must include testing to determine the suitability from a technical as well as health, safety and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise,

incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents

covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General


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Clevios™ Coating Guide Formulation CPP 4531 E3D

For conductive coatings with good adhesion properties on corona-treated polyethylene surfaces and on plastics as a pre-treatment for electrostatic coatings. Wet film thickness 2 µm 4 µm 6 µm 24 µm Surface resistivity < 107 Ohm/sq < 107 Ohm/sq 5.0 x 104 Ohm/sq 1.4 x 104 Ohm/sq Quantity of Clevios™ P in the coating 0.8 g/m2 1.7 g/m2 2.5 g/m2 10.2 g/m2 Properties of the dispersion (approximate values) Solid content: 4.5 % Viscosity: 50 mPa.s pH value: 2.4 Density 0.911 g/cm3

COMPONENT

% BY WEIGHT

Clevios™ P 38.36

Bayderm Finish 85UD –N* / Bayhydrol 140AQ 10.40


Isopropanol 48.58

Dynol™ 604 0.20


Total 100.00

*Not U.S. TOSCA listed

All components must be mixed in the above order under constant agitation and filtered

through a 10 micron filter prior to using or storing. The coating can be applied by conventional coating methods such as brushing, spin-

coating, printing, spraying, and roller-coating. Organic binders such as polyurethane dispersions or polyvinyl acetate can be added to

the CLEVIOS™ P polymer dispersion to improve the adhesive properties. Coating should be cured at approximately 80-120°C for a minimum of 3 to 5 minutes. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,


NB: The condition of your use and application of our products, technical assistance and information (whether verbal, written or by way of productions evaluations) including any suggested formulations and recommendations, are beyond our control. Therefore it is imperative that you test our products, technical assistance and information to determine to your own satisfaction whether they are suitable for your intended uses and

applications. This application specific analysis at least must include testing to determine the suitability from a technical as well as health, safety and environmental standpoint. Such testing has not necessarily been done by Heraeus. All information is given without warranty or guarantee. It

is expressly understood and agreed that the customer assumes and hereby expressly releases Heraeus from liability, in tort, contract or otherwise, incurred in connection with the use of our products, technical assistance and information. Any statement or recommendation not contained herein is unauthorized and shall not bind Heraeus. Nothing herein shall be construed as a recommendation to use any product in conflict with patents

covering any material or its use. No license is implied or in fact granted under the claims of any patent. Properties of the products referred to herein shall as general rule not be classed as information on the properties of the item for sale. In case of order please refer to issue number of

the respective product data sheet. All deliveries are based on the latest issue of the product data sheet and the latest version of our General Conditions of Sale and Delivery.

12

Clevios™ Coating Guide Formulation CPG 130.6

For the application of scratch-resistant antistatic coatings with good Adhesion properties on glass surfaces. Surface Resistivity < 106 Ohm/sq Pencil Hardness 9 H Quantity of Clevios™ P Used per m2 2 g (spray application)

Above values are approximate.

COMPONENT

% BY WEIGHT

Clevios™ P 31.70

Isopropanol 39.70

Ethylene glycol 15.90

Tetraethoxysilane 11.90

Acetic acid (100%) 0.80

Total 100.00

All components must be mixed in the above order under constant agitation. The coating can be applied by conventional spray-coating or spin-coating methods. Coated substrates should preferably be dried for 10 minutes at 50°C. Evaporation of the solvent is followed by post-curing for 30 minutes at 180°C. Surface resistivity measurements made according to IEC Standard 93 (VDE 0303,

Part 30) or ASTM D 257. Refractive index of coating CPG 130.6 on glass was found to be nD = 1.4565 @589.3 nm.







Documents

P can generally be 50 nm100 nm - Heraeus Group · particularly in the electronics industry, which were previously not possible. film which is conductive and transparent. With poly