ITO Coatings

Special Properties

• Conductive coating with excellent light transmission
• Sputter coated on high-quality glass substrates
• Low micro-roughness
• SiO₂ passivation layer between the substrate and the ITO (CEC-S and CEC-P series only)
• High reflection for infrared light
• High uniformity of surface resistance
• Superb abrasion resistance and adhesion
• Can be structured using a laser or etching processes
• Possible sheet resistivities from 3.5 Ω to 1 kΩ/sq.

Typical Applications

• LCD and OLED display technology
• Touch screens and touch-sensitive display technology
• Microscope slides for medical science and research
• Anodes for organic LED (OLED)
• MEMS - Micro-Electro-Mechanical Systems
• EMF, EMI, EMC, RFI, and RF shielding
• Transparent electrodes and capacitors
• Temperature-controlled microscope stages
• Heated cover glasses for scientific and medical research
• Invisible conductor tracks on glass
• Microscope heating stages
• Ultra-flat antennas for mobile communication devices
• Conductible object carriers and cover glasses
• Space optics
• Organic solar cells
• Mirrors and reflectors for the infrared range
• Heated windows with defrost function

Related topics and websites

• Transmission curves of our ITO glasses
  
• FAQ: ITO glass
  (Frequently Asked Questions)
• CUT (copper adhesive tape for contacting ITO)

RFQ

48-hour express manufacturing

Our ITO coatings are a perfect solution when glass with an electrically conductive surface and high optical transmission is required. We achieve these properties by sputter deposition of a thin indium tin oxide film onto high-quality glass substrates. Conductive ITO glass is used in almost all LCD or touch screens and often forms the anode in OLED displays. Indium tin oxide is ideal for manufacturing transparent electrodes, integrated invisible flat antennas in mobile devices, antistatic glass, heating, antifog, and de-icing windows, organic solar cells, and many other applications.

An interesting property of indium tin oxide coatings with low electrical resistance is their high reflectivity in the infrared range, which allows them to be used as IR mirrors or filters while remaining transmissive in the visible range. Furthermore, conductive glass can shield electromagnetic fields. Many of our CEC materials are ideal for the production of EM shielding glasses that can attenuate electromagnetic radio waves.

We manufacture microscope slides and cover glasses based on the glass types listed in the table on this page in all standard laboratory formats for science and research. Regardless of whether you need small parts for microscopy or large sheets for photovoltaic research, many sizes are possible. Our conductive coated glass is also an excellent solution for micro-structuring or patterning applications. Patterning can be done with a laser or by etching. We are pleased to provide typical etching recommendations on request.

Our CEC-S and CEC-P series feature a SiO₂ passivation layer. This quartz barrier is only a few nanometers thick. It is located between the substrate and the TCO, so the conductive layer remains on top and is only in direct contact with the high-purity quartz layer, not with the soda-lime glass. This so-called passivation prevents the otherwise occurring leaching of alkali oxides from soda-lime glass into the liquid crystals of a display, which is essential to the longevity of LCDs and a significant benefit for most electronics applications. The thin SiO₂ barrier improves the performance of ITO glass products nearly without increasing cost, as the deposition of this layer is efficiently integrated into the deposition process. The protection against alkali oxides achieved with the SiO₂ passivation layer is superior to any other technology.

In addition to the popular S-series and P-series coated on selected HQ float glass, we produce many other conductive glasses based on more exotic substrates. ITO-coated optical grade quartz (CEC-Q), borosilicate glass (CEC-B), alkali-free 1737F (CEC-A), EAGLE2000 (CEC-E), thin-glass (CEC-T), and our double-sided coated CEC-SD are part of our extensive manufacturing program. The large number of materials listed in the table are usually available from stock.

We offer solutions with customized layer thicknesses, on special glasses, or with an electrical conductivity not listed in the table. Moreover, an anti-reflective coating can be applied to the rear side in a separate production batch. Customization to your specific requirements is available on request for sufficiently large quantities. Please use our inquiry form to let us know your exact requirements. We will be happy to provide you with a corresponding quote.

 

Customized Dimensions

Since almost every application requires a specific part size, we have deliberately not limited our product range to a few fixed sizes. Most of our materials listed in the table can be quickly produced to your size specification, even for larger quantities. We typically process all possible dimensions in less than a week, so they can often ship as quickly as stock items with fixed dimensions. Delivery time for custom sizes can be even faster with our 48-hour express option. Whether you need small parts for your organic LED displays (OLED), require larger dimensions for solar cells, or want a typical microscope slide size used in science, all these sizes are possible.

Please click the button below or select a desired thickness in the table to request a quote for our ITO coatings with custom dimensions.

 

RFQ

48-hour express manufacturing

 

Visit our ITO FAQ web page for more details about our transparent conductive indium tin oxide glasses and deposition services.

 

Specifications

View all ITO transmissions

Display the spectral curves of all ITO products

ITO Coated Glass | Stock Materials

Please click a thickness to begin a request:

	Sheet Resistance Rsq
Product code	specified (Ω/)	typical (Ω/)	typical film THK (nm)	available thicknesses (mm)
ITO on Selected HQ-Float Glass (CEC-S series)
CEC004S	4±1	3.5	n/a	1.1
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±20	95	23	0.55 | 0.7 | 1.1
CEC120S	≤ 120	100	21	1.1
CEC300S	300±50	300±50	20	1.8
CEC500S	500±160	500±160	15	0.3 | 0.4 | 0.7 | 1.1 | 1.8
ITO on Selected HQ-Float Glass coated on both sides (CEC-SD series)
CEC050SD	50±10	50±10	34	0.55
ITO on Polished HQ-Float Glass (CEC-P series)
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
ITO on 1737 Glass (CEC-A series)
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
ITO on BOROFLOAT® Glass (CEC-B series)
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
CEC015B	15±5	15±5	n/a	3.3
CEC020B	20±6	20±6	n/a	0.7 | 1.1 | 3.3 | 5.0
ITO on EAGLE2000 Glass (CEC-E series)
CEC010E	10±3	10±3	n/a	1.1
CEC020E	20±5	20±5	n/a	1.1
ITO on Soda-Lime Float Glass (CEC-F series)
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±6	20±6	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
ITO on Quartz Glass (Fused Silica) double-side polished (CEC-Q series)
CEC020Q	20±6	20±6	n/a	1.0
ITO on D263 T Thin-Glass (CEC-T series)
CEC020T	20±5	20±5	n/a	0.175 | 0.3
Customization A custom film thickness, glass material, glass thickness (≥ 0.175 mm), conductivity (3.5 Ω - 1 kΩ/sq.), or backside anti-reflection coating is possible per batch upon request. Don't hesitate to contact us for more details. Film thickness We control the film thicknesses of all CEC-S, CEC-P, and CEC-SD coatings with an in-situ process. All other, more exotic substrates are deposited in a smaller chamber. Therefore, the exact layer thicknesses aren't a process-controlled parameter for these materials. We only control the surface resistivity and the transmissivity of these coatings. These coatings are therefore marked “n/a” in the corresponding column of the table. Contacting ITO glass For contacting, you can use spring contacts, suitable silver paint, or our copper tape.

Substrates

• CEC-S & CEC-SD: Selected HQ float glass
• CEC-P: Polished HQ float glass
• CEC-A: 1737F Near-zero alkali aluminosilicate glass
• CEC-B: Borosilicate glass
• CEC-E: EAGLE2000 Alkali-free boro-aluminosilicate
• CEC-F: Selected float glass
• CEC-Q: Polished optics-grade Quartz glass
• CEC-T: D263 Thin-glass
• Other substrates are available upon request.

Coating Construction

• CEC-S and CEC-P:
  • Indium tin oxide coating on one side
  • SiO₂ passivation layer between the ITO and glass:
    — quartz thickness at R_sq ≤ 120 Ω/ : ∼ 25 nm
    — quartz thickness at R_sq = 500 Ω/ : ∼ 65 nm
• CEC-A, CEC-B, CEC-E, CEC-F, CEC-Q, and CEC-T:
  • Indium tin oxide coating on both sides
  • No SiO₂ passivation layers
• CEC-SD:
  • Indium tin oxide coating on one side
  • One SiO₂ passivation layer per side:
    SiO₂ layer thickness :∼ 20 nm

Refractive Index

• The total refractive index of our ITO coatings is unspecified.
• The refractive index of the glasses is listed in the respective material datasheets (see links above).
• The refractive index of transparent indium tin oxide films is around 1.95 for visible wavelengths.

Flatness

• Depending on the substrate material

Surface Quality

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

Other Properties

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

Contacting options

• Copper tape
• Spring contacts
• Conductive silver paint

Please use our information request form for more details about our indium tin oxide coatings.

 

All data and properties given are average guide values and are not guaranteed. Moreover, please consider the Notes on Specifications.

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Last update: June 27, 25