ITO Coatings

Special Properties

• Highly transparent and electrically conductive coatings
• Excellent light transmittance from the visible to the near-infrared range
• Sputtered indium tin oxide thin-film
• Coated on high-quality glass substrates
• SiO₂ passivation layer without additional cost
  (CEC–S & CEC–P series)
• Low microroughness
• Excellent homogeneity of the electrical surface resistance
• Reflective for infrared wavelengths
• High uniformity of optical transmittance
• Excellent abrasion resistance and coating adhesion
• Structuring by laser or etching processes possible

Typical Applications

• LCD and OLED displays
• ITO-coated microscope slides for science and research
• Micro structuring applications
• Conductive and optically transparent coatings for touch screens and touch-sensitive display technology
• Circuit substrates for electronics
• Microscope heating stages
• Anodes for organic LEDs (OLED)
• Conductive coatings for transparent electrodes
• EMF/EMI/EMC/RFI and HF shielding glass
• Flat antennas for digital mobile communication devices
• Conductive object carriers & cover glasses
• Organic solar cells
• Reflective infrared filters
• Coatings for de-icing windows
• Heatable microscope slides and coverslips
• Coatings for infrared mirrors

Related topics and pages

• Transmission of our indium tin oxide coated materials
  (Spectral curves of our ITO-coatings)
• FAQ: ITO coatings
  (Frequently Asked Questions about our indium tin oxide coated glass, coating capabilities, and services)
• CUT
  (Copper adhesive tape for contacting our ITO-glass)

Request for Quotation

Also available in 48 h Express-Service

The indium tin oxide coatings of our CEC series are a perfect choice whenever a glass with an electrically conductive surface and high optical transparency is required. We achieve these properties by applying a thin conductive ITO layer to high-quality glass substrates using sputter technology.

Our indium tin oxide coatings provide excellent optical transmission. They are used for touch screens as well as for organic LEDs (OLED) and LCD-displays in digital devices. Furthermore, they represent a perfect solution for the manufacturing of transparent electrodes, integrated invisible flat antennas in mobile communication devices, anti-static glass, heating- and de-icing windows, organic solar cells, and a wide range of similar applications. Indium tin oxide coatings can also be used to make IR-mirrors and FIR-filters because ITO coatings with low surface resistance and high film thickness have a good reflection in the upper infrared wavelength range.

Conductive transparent indium tin oxide coatings can shield electromagnetic fields. Due to the low surface electrical resistances available, many of our ITO coatings are an ideal solution for the construction of EM protection windows that must transmit visible light and shield electromagnetic radio waves.

For scientific applications, we produce ITO-coated slides and coverslips based on the coatings listed in the table on this page in any standard laboratory size. So whether you use standard formats, such as the slides used in microscopy, or whether you need ITO glass in custom sizes for photovoltaic research, all these dimensions are possible. Our ITO-coated materials have also proven to be an excellent solution for micro-structuring and patterning applications. You can structure our ITO-glass by laser or etching technology. On request, we are pleased to send you the etching recommendations for our indium tin oxide coatings.

All CTO coatings (CTO = conductive transparent oxide) of our CEC-S and CEC-P series feature a SiO₂ passivation layer. This quartz barrier layer, which is only a few nanometers thick. It is located between the glass substrate and the indium tin oxide thin film so that the ITO coating remains the top layer and is only in direct contact with the quartz layer and not with the substrate glasses. This passivation layer prevents the otherwise occurring leaching of alkali oxides from a soda-lime glass substrate into liquid crystals. It is crucial for the longevity of liquid crystal displays (LCD) and of great advantage for various other applications, not only in electronics. The SiO₂ coating increases product quality without increasing cost, as it is integrated efficiently into the coating process. The perfect alkali-ion shielding performance achieved with the SiO₂ layer is superior to any other technology or coating process without a barrier layer.

In addition to the popular S- and P-series, we fabricate a wide range of other indium tin oxide coatings based on more exotic glass materials. This includes ITO-coated quartz glass (CEC-Q), ITO coated borosilicate glass (CEC-B), 1737F ITO-glass (CEC-A), EAGLE2000 ITO-glass (CEC-E), ITO coated thin glass (CEC-T), and our new double side coated CEC-SD ITO-coating. This wide range of our standard indium tin oxide coatings is usually always available (see table on this website for specifications and available substrate thicknesses)

However, if you search for ITO-coatings with other film-thicknesses or based on custom glass materials or surface resistivities not listed in the table, we also custom-coat to your requirements in a dedicated coating run. The same applies to index-matched ITO and backside anti-reflective coatings, which are optional for some materials. To get a quote for a custom coating process, please use our coating inquiry form to contact us with your specifications.

 

Standard Dimensions

Since almost every application requires a particular part dimension, we have deliberately not limited our products to a few standard sizes. Most of our indium tin oxide coatings listed in the table can be fabricated according to your custom size specification rapidly, even if larger quantities are needed. With average production load, we process all possible dimensions in less than a week, so they can usually be shipped just as quickly as stock items with fixed dimensions. In particularly urgent cases, our 48h express service is available for a surcharge for most of our ITO coatings.

No matter whether the ITO coated glass product you search for is small, as often required for small organic LED displays (OLED), whether you need substantially larger dimensions, or if you want a typical microscope slides size used in science. All these sizes are possible.

To request a quotation for our indium tin oxide coatings with specific dimensions, please use the button below or click on the desired thickness in the table to directly open an inquiry form with the selected material. You will quickly receive our detailed quotation.

 

Request for Quotation

Also available in 48 h Express-Service

 

Visit our ITO glass FAQ web page for more information on our indium tin oxide coatings and coating services.

 

Specifications

Click on curve to view the transmission
curves of all ITO-coatings

Show all transmission spectra

Available ITO glasses and standard thicknesses:

(Please click on substrate thicknesses to request)

	Surface Resistivity Rsq
Product code	specified (Ω/)	typical (Ω/)	typical ITO film thickness (nm)	available glass thicknesses (mm)
Selected HQ-Float Glass substrate (CECXXXS)
CEC005S	≤ 5	4,5	310	1,1
CEC007S	≤ 7	6	260	1,1
CEC010S	≤ 10	8,5	180	0,7 / 1,1
CEC017S	≤ 17	14	110	1,1
CEC020S	≤ 20	15	100	0,7 / 1,1
CEC030S	≤ 30	24	65	1,1
CEC040S	≤ 40	30	50	1,1
CEC050S	≤ 50	40	40	1,1
CEC100S	≤ 100	80	23	0,55 / 0,7 / 1,1
CEC120S	≤ 120	100	21	0,7 / 1,1
CEC300S	300±50	300±50	20	1,8
CEC500S	500±100	500±100	15	0,3 / 0,4 / 0,7 / 1,1 / 1,8
NEW Product! Selected HQ-Float Glass substrate, double side ITO coated (CECXXXSD)
CEC050SD	50±10	50±10	34	0,55
Polished Float Glass substrate (CECXXXP)
CEC005P	≤ 5	4,5	310	0,5 / 0,7
CEC007P	≤ 7	6	260	0,4 / 0,7
CEC010P	≤ 10	8,5	180	0,4 / 1,1
CEC015P	≤ 15	12,5	120	0,4
CEC020P	≤ 20	15	100	1,1
CEC030P	≤ 30	24	65	0,4 / 1,1
CEC050P	≤ 50	40	40	1,1
CEC060P	≤ 60	50	33	0,55
CEC080P	≤ 80	65	25	0,4
1737 Low Alkali Glass substrate (CECXXXA)
CEC010A	10±2,5	10±2,5	n/a	1,1
CEC020A	20±5	20±5	n/a	0,7 / 1,1
CEC025A	25±6	25±6	n/a	0,7 / 1,1
Borosilicate Glass substrate (CECXXXB)
CEC007B	7±2	7±2	n/a	1,1
CEC010B	10±3	10±3	n/a	1,1 / 1,75 / 2,0 / 3,3 / 5,0
CEC020B	20±6	20±6	n/a	0,7 / 1,1 / 3,3
EAGLE2000 Low Alkali Glass substrate (CECXXXE)
CEC010E	10±3	10±3	n/a	1,1
CEC020E	20±5	20±5	n/a	1,1
Float glass substrate (CECXXXF)
CEC005F	5±1	5±1	n/a	1,0
CEC007F	7±2	7±2	n/a	1,0
CEC010F	10±3	10±3	n/a	1,0 / 2,0 / 3,0
CEC015F	15±4,5	15±4,5	n/a	1,0 / 3,0
CEC020F	20±5	20±5	n/a	1,0
CEC050F	50±12,5	50±12,5	n/a	1,0
CEC100F	100±25	100±25	n/a	0,7 / 1,0
Quartz Glass substrate, double side polished (CECXXXQ)
CEC020Q	20±6	20±6	n/a	1,0
Thin Glass Substrate (CECXXXT)
CEC020T	20±5	20±5	n/a	0,175 / 0,3
Other indium tin oxide film-thickness or ITO-surface resistivity (5 Ω-1 kΩ), custom glass thicknesses (≥ 0,1 mm), different substrate materials, or backside anti-reflection coatings on a batch basis are available per request. Please contact us for further details about our custom ITO coating services. We control the thickness of the ITO-films of all CEC–S, CEC–P, and CEC–SD coatings with an in-situ process. We make all other more exotic coatings in a smaller coating machine. Hence, the film-thickness isn't a process-controlled parameter for these materials. We only control the surface resistivity and the transmissivity of these coatings. Therefore these coatings show "n/a" in the "typical film-thickness" table column. For contacting our ITO coatings, you can use spring contacts, suitable conductive silver paint, or our adhesive copper tape. You might wish to add our conductive adhesive copper tape to your ITO glass order.

Substrate Materials

• CEC-S & CEC-SD: Selected HQ float glass
• CEC-P: Polished HQ float glass
• CEC-A: 1737F Alkali-free aluminosilicate glass
• CEC-B: Borosilicate glass
• CEC-E: EAGLE2000 Alkali-free boro-aluminosilicate
• CEC-F: Selected float glass
• CEC-Q: Polished Quartz glass
• CEC-T: D263 Thin-glass
• Other substrates available on request

Coating Construction

• CEC-S and CEC-P coatings:
  • Single side electrically conductive transparent ITO coating (Indium Tin Oxide)
  • SiO₂ passivation layer coated between the ITO layer and glass substrate:
    - Layer thickness at R_sq ≤ 120 Ω/ : ∼ 25 nm
    - Layer thickness at R_sq = 500 Ω/ : ∼ 65 nm
• CEC-A, CEC-B, CEC-E, CEC-F, CEC-Q, and CEC-T
  ITO coatings:
  • Single side electrically conductive transparent ITO coating (Indium Tin Oxide)
  • No SiO₂ passivation layer
• CEC-SD coatings (New product!):
  • Double side coated electrically conductive transparent ITO coating (Indium Tin Oxide)
  • SiO₂ passivation layer coated between ITO layers and glass substrate:
    Each SiO₂ layer thickness ∼ 20 nm

Refractive Index

• The total refractive index of our indium tin oxide coated glass is unspecified.
• You can find the refractive index of the glass substrates in the specifications of the respective substrate glass materials (see links above).
• The refractive index of transparent indium tin oxide coatings remains around 1,95 for visible wavelengths.

Flatness

• Depending on substrate glass and thickness
• Specified flatness available on request

Surface Quality

• Better than 80-50 scratch & dig (MIL-0-13830A)
• Other on request

Other Specifications

• According to MIL-C-675 A (4.6.11, Rubber test)
• According to MIL-M-13508 (4.4.6, Tape test)

Contacting options for ITO coatings

• Conductive adhesive copper tape
• Spring contacts
• Conductive silver paint

For additional customer support and further information about our indium tin oxide coated material portfolio, please use our information request form or contact us by email.

 

All given details and specifications are mean reference values and are not guaranteed. Also, please consider our "Notes on technical specifications".

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