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703192

Sigma-Aldrich

Indium tin oxide coated glass slide, square

surface resistivity 8-12 Ω/sq

Synonym(s):

ITO, ITO coated slide, square

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About This Item

Linear Formula:
In2O3 · (SnO2)x
CAS Number:
50926-11-9
MDL number:
MFCD00171662
UNSPSC Code:
12352103
PubChem Substance ID:
329762437
NACRES:
NA.23

description

slide

Quality Level

100

surface resistivity

8-12 Ω/sq

L × W × thickness

25 mm × 25 mm × 1.1 mm

transmittance

84% (nominal at 550nm)

refractive index

n20/D 1.517

SMILES string

O=[Sn]=O.O=[In]O[In]=O

InChI

1S/2In.5O.Sn

InChI key

LNNWKAUHKIHCKO-UHFFFAOYSA-N

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General description

Indium tin oxide (ITO) is widely used as transparent conducting oxides. Its major characteristics are electrical conductivity, optical transparency and the ease to be deposited as films.
substrate: unpolished float glass, SiO2 passivated (200-300 Å)

Application

ITO glass slides were used as a substrate for fabricating polymer solar cells based on blends of polymeric semiconductors and organic light emitting diodes (OLEDS). ITO substrates can also be used to design transparent heater arrays by etching the surface of the substrate by a printing tool. ITO cover slides may be used for closed digital microfluidic devices and as transparent electrodes in display and other optoelectronic devices.Some other probable uses that has been reported are:
  • Eumelanin samples prepared on ITO covered glass substrates.
  • Interface windows of the liquid cell for optical beam deflection (OBD) sensing contains a 20-nm-thick indium tin oxide film.
  • Mesoporous TiO2 films were formed on ITO conductive glasses.

Physical properties

Thickness of ITO coating is 1,200-1,600 Å

Storage Class Code

13 - Non Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Certificates of Analysis (COA)

Lot/Batch Number
MKCV5862
MKCW2337
MKCX0470
MKCS9717
MKCV2256

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  1. Which document(s) contains shelf-life or expiration date information for a given product?

    If available for a given product, the recommended re-test date or the expiration date can be found on the Certificate of Analysis.

  2. How do I get lot-specific information or a Certificate of Analysis?

    The lot specific COA document can be found by entering the lot number above under the "Documents" section.

  3. How do I find price and availability?

    There are several ways to find pricing and availability for our products. Once you log onto our website, you will find the price and availability displayed on the product detail page. You can contact any of our Customer Sales and Service offices to receive a quote.  USA customers:  1-800-325-3010 or view local office numbers.

  4. What is the Department of Transportation shipping information for this product?

    Transportation information can be found in Section 14 of the product's (M)SDS.To access the shipping information for this material, use the link on the product detail page for the product. 

  5. Does Product No. 703192 have ITO coating on both sides?

    No, Product No. 703192 has coating on one side only. The best way to identify which side has the coating is to measure the resistivity of the slide. The probes should lightly touch the surface, to minimize any damage to the substrate.

  6. How can Product No. 703192 be cleaned before use?

    To clean Product No. 703192, our vendor recommends using a 20% by weight solution of ethanolamine in deionized water, heated to 80 °C in an ultrasonic bath, within an approved fume hood. Immersion of parts in this solution with ultrasonic agitation for a period of 10 to 15 minutes is an efficient method for the removal of any fingerprints, body oils or similar residual organic contaminants. The solution is moderately caustic. Solution vapors can irritate mucous membranes and can cause burns, and should be avoided. Following the immersion cycle, the substrates should be removed and rinsed several times with deionized water, and finally blown dry with a clean, oil-free nitrogen or air source to avoid water spotting. For additional assistance, please contact Technical Services.

  7. Can Product No. 703192 have good electrical contacts attached to it?

    Yes, there are a variety of methods for attachment to Product No. 703192. One involves the use of highly conductive silver bus compositions. This can be applied to ITO surface along an edge, for example, and dried or cured, depending on whether the composition is a thermoplastic or thermoset material.  The resulting bus bar provides a highly conductive layer in intimate contact with the transparent conductor. The attachment of an alligator clip to the bus bar, while it may penetrate the transparent conductor, will also make excellent contact with the bus material. Since the bus material is several orders of magnitude (from 3 to 5 ) more conductive than the transparent semiconductor, contact resistance is minimized and any voltage drop a this interface becomes negligible. For additional assistance, please contact Technical Services.

  8. Is the ITO applied directly to the glass substrate for product 703192?

    No, Product No. 703192 has a SiO2 passivation layer applied directly on the glass prior to ITO coating.

  9. Do you have any information regarding the surface roughness of Product No. 703192?

    According to the vendor, Product No. 703192 has a typical surface roughness of <0.15 micrometer/20 mm, peak-to-peak.  This value is not measured for every slide, but is an average value.

  10. What is the composition of the glass used for Product No. 703192?

    Typical composition of float glass used for Product No. 703192 is 72.6% SiO2, 0.8% B2O3, 1.7% Al2O3, 4.6% CaO, 3.6% MgO, and 15.2% Na2O. These values are not measured for every slide, but are average values.

  11. What is the strain point for Product No. 703192?

    The strain point of the float glass used for Product No. 703192 is approximately 523 °C.

  12. My question is not addressed here, how can I contact Technical Service for assistance?

    Ask a Scientist here.

Keith A Brown et al.
Proceedings of the National Academy of Sciences of the United States of America, 110(32), 12921-12924 (2013-07-19)
Scanning probe lithography (SPL) is a promising candidate approach for desktop nanofabrication, but trade-offs in throughput, cost, and resolution have limited its application. The recent development of cantilever-free scanning probe arrays has allowed researchers to define nanoscale patterns in a
Myungjae Yang et al.
Small (Weinheim an der Bergstrasse, Germany), 14(25), e1800885-e1800885 (2018-05-29)
A method is developed to directly map nanoscale "noise-source switching" phenomena during the optoelectronic switching of phase-separated polymer nanocomposites of tetrathiafulvalene (TTF) and phenyl-C61 -butyric acid methyl ester (PCBM) molecules dispersed in a polystyrene (PS) matrix. In the method, electrical
Online coupling of digital microfluidic devices with mass spectrometry detection using an eductor with electrospray ionization.
Baker CA and Roper MG
Analytical Chemistry, 2955-2960 (2012)
Optical Fiber Refractometers based on Indium Tin Oxide Coatings with Response in the Visible Spectral Region
Zamarreno CR, et al.
Procedia Engineering, 25, 499-502 (2011)
Preparation of non-annealed anatase TiO< sub> 2</sub> film on ITO substrate by anodizing in hot phosphate/glycerol electrolyte for dye-sensitized solar cells.
Tsuji E, et al.
Materials Letters, 91, 39-41 (2013)
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