ITO Conductive Glass 10–15 Ω/sq 1.1mm Sputtered

Price range: $52.00 through $423.00

Institutional Procurement & Supply Compliance: As a verified US supplier, Atomfair accepts formal institutional Purchase Orders (POs), contract billing schedules, and custom procurement loops for university and national laboratories, and corporate R&D departments globally.

Research-grade ITO conductive glass with 10–15 Ω/sq sheet resistance, 1.1 mm thickness, and 10×10 to 100×100 mm sizes. Order now.

Description

ITO CONDUCTIVE GLASS 10-15 OHM 1.1MM MAGNETRON SPUTTERED COATING

RESEARCH GRADE MATERIAL

Product Overview

This ITO Conductive Glass is manufactured by depositing an indium tin oxide thin film onto soda-lime or borosilicate base substrates via 10-15 Ohm magnetron sputtered coating technology. The product delivers excellent optical transmission with a wide bandgap, high visible-light transmittance, and stable electrical conductivity, making it a reliable optoelectronic device substrate for flat panel displays, solar cells, photoelectric window coatings, and various optoelectronic components. This listing is for 1.1 mm thickness with 10–15 Ω/sq sheet resistance. Square resistance is customizable from 1 Ω to 10000 Ω, with substrate thickness ranging from 0.05 mm to 10 mm. The product supports free selection of base materials manufactured to specification. Full precision laser cutting custom processing services—including laser cutting, engraving, etching, hole drilling, edge grinding, and polishing—are available to meet exact dimensional and patterning requirements.

Technical Specifications

PARAMETER DETAILS
Material Type ITO (Indium Tin Oxide) Conductive Glass
Coating Process Magnetron Sputtering
Thickness 1.1 mm
Square Resistance 10–15 Ω/sq
Custom Resistance Range 1 Ω–10000 Ω
Custom Thickness Range 0.05 mm–10 mm
Available Substrates Soda-Lime Float Glass / Ultra-White Glass / Borosilicate Glass / Quartz Glass / K9 Optical Glass / Sapphire Glass
Stock High-Borosilicate Substrates Asahi / SCHOTT / Corning (FTO/ITO Available)
Processing Services Laser Cutting / Engraving / Etching / Hole Drilling / Edge Grinding / Polishing / Ultrasonic Cleaning / Coating
Custom Shapes Square / Round / Hole / Slot / Irregular Workpieces
Custom Configurations Other substrate materials, dimensions, and processing specifications are available upon request. Please contact us via email for custom orders.

Key Features & Advantages

  • Extensive Substrate Material Selection: Available substrates include standard soda-lime float glass, ultra-white glass, borosilicate glass, quartz glass, K9 optical glass, and single-crystal sapphire. High-borosilicate substrates from Asahi, SCHOTT, and Corning are stocked regularly, with both FTO and ITO conductive coatings available.
  • Full-Range Resistance and Thickness Coverage: Square resistance from 1 Ω to 10000 Ω can be produced via magnetron sputtering. Substrate thickness spans from 0.05 mm ultra-thin sheets to 10 mm thick plates, matching the complete specification range required for diverse research and industrial applications.
  • Complete In-House Precision Processing: Integrated equipment for laser cutting, precision engraving, chemical etching, hole drilling, edge grinding, polishing, ultrasonic cleaning, and coating enables high-precision finished parts delivered from a single source, eliminating the need for multiple vendor coordination.
  • Flexible Custom Geometries and Markings: Supports square, round, hole-drilled, slotted, and irregular-shaped workpieces. Laser lettering, pattern etching, and precision cutting services allow device identification marking and custom electrode patterning directly on the coated substrate.

APPLICATION SCOPE: Transparent electrode substrate for flat panel display devices. Current collector for thin-film and perovskite solar cells. Photoelectric window coatings for sensors and detectors. Transparent conductive substrate for organic light-emitting diodes and optoelectronic components. Electrode platform for electrochemical biosensing and spectroelectrochemistry. EMI shielding windows for electronic instrumentation. The magnetron-sputtered ITO coating provides wide bandgap optical transparency combined with stable low-resistivity electrical performance across all application domains.
PACKAGING: This listing is for 1.1 mm thickness with 10–15 Ω/sq sheet resistance. Each substrate is interleaved with cleanroom-grade lint-free separation film and packed in a rigid protective container to prevent mechanical damage and particulate contamination during transit. Custom resistance, thickness, substrate material, and processing specifications are manufactured to order. For bulk quantities or tailored configurations, please contact us via email.
IMPORTANT NOTICE: ITO conductive glass surfaces may accumulate dust, grease, and organic contaminants during production, packaging, and transport. Cleaning is mandatory before use. Handle substrates by the edges using cleanroom-compatible tweezers to avoid surface contamination of the ITO-coated side. For custom laser-cut or engraved pieces, verify dimensional tolerances and edge quality requirements at the time of order. Store unused substrates in a dry, dust-free environment to maintain surface cleanliness. For detailed cleaning protocols, consult the user guidelines provided with the shipment.
TAILORED SOLUTIONS FOR RESEARCH
Contact our engineering team for technical support or official quotations.
EMAIL: inquiry@atomfair.com
Manufacturer: Atomfair LLC
Brand: ATOMFAIR®

This ITO conductive glass substrate requires careful handling and storage to maintain surface cleanliness and electrical performance. The magnetron-sputtered ITO coating is sensitive to contamination and must be cleaned before use.

  • Contamination Sensitivity: ITO conductive glass surfaces may accumulate dust, grease, and organic contaminants during production, packaging, and transport.
  • Cleaning Requirement: Cleaning is mandatory before use to remove surface contaminants.
  • Handling Procedure: Handle substrates by the edges using cleanroom-compatible tweezers to avoid surface contamination.
  • Storage Conditions: Store unused substrates in a dry, dust-free environment to maintain surface cleanliness.
  • Dimensional Verification: For custom laser-cut pieces, verify dimensional tolerances and edge quality requirements at the time of order.

This procedure describes the mandatory cleaning and handling steps for ITO conductive glass substrates. Proper preparation prevents contamination and ensures reliable performance in optoelectronic applications.

Required Equipment: Cleanroom-compatible tweezers

  1. Inspect Substrate
    Inspect the ITO-coated surface for visible contamination, cracks, or defects before handling.
  2. Handle by Edges
    Handle the substrate by its edges using cleanroom-compatible tweezers to avoid contaminating the ITO coating.
  3. Clean Surface
    Clean the ITO-coated surface using a lint-free wipe and an appropriate solvent to remove grease and dust.
  4. Store Properly
    Store unused substrates in the original protective packaging in a dry, dust-free environment.

How does the 10–15 Ω/sq sheet resistance of this ITO glass affect performance trade-offs between conductivity and optical transmittance for perovskite solar cell current collectors?

The 10–15 Ω/sq range provides a balanced trade-off for perovskite solar cells, offering stable electrical conductivity for efficient charge collection while maintaining high visible-light transmittance due to the wide bandgap of the magnetron-sputtered ITO coating. This specification is suitable for transparent electrode substrates where both low sheet resistance and optical clarity are critical, though custom square resistance from 1 Ω to 10000 Ω is available if application-specific optimization is required.

Can this ITO conductive glass be integrated with borosilicate substrates from SCHOTT or Corning for high-temperature thin-film deposition processes?

Yes, this product supports high-borosilicate substrates from Asahi, SCHOTT, and Corning, which are stocked regularly with both FTO and ITO coatings available. These borosilicate substrates offer superior thermal stability compared to standard soda-lime glass, making them compatible with high-temperature thin-film deposition processes such as sputtering or chemical vapor deposition. Custom substrate materials, including quartz and sapphire, are also available upon request.

What mandatory cleaning and handling procedures are required before using this ITO glass to avoid surface contamination and ensure reliable device performance?

Cleaning is mandatory before use because ITO conductive glass surfaces may accumulate dust, grease, and organic contaminants during production, packaging, and transport. Handle substrates by the edges using cleanroom-compatible tweezers to avoid contaminating the ITO-coated side. Store unused substrates in a dry, dust-free environment, and consult the user guidelines provided with the shipment for detailed cleaning protocols.

This ITO conductive glass (10–15 Ω/sq, 1.1 mm thick) offers broad substrate material flexibility and a wide customizable resistance range, but requires careful surface cleaning and controlled storage to maintain performance.

Positive

  • Extensive substrate material selection: Available substrates include soda-lime, borosilicate, quartz, K9 optical, and sapphire glasses, with stocked high-borosilicate substrates from Asahi, SCHOTT, and Corning, enabling matching of thermal and optical properties to specific application requirements.
  • Full-range resistance and thickness customization: Square resistance from 1 Ω to 10000 Ω and substrate thickness from 0.05 mm to 10 mm are available via magnetron sputtering, covering the complete specification range for diverse research and industrial applications.

Trade-offs

  • Mandatory surface cleaning before use: ITO conductive glass surfaces may accumulate dust, grease, and organic contaminants during production, packaging, and transport; cleaning is mandatory before use to ensure proper electrical and optical performance.
  • Strict storage and handling requirements: Substrates must be stored in a dry, dust-free environment and handled by edges using cleanroom-compatible tweezers to avoid surface contamination and maintain coating integrity.

Every advanced material, component, equipment, and instrument in our catalog is backed by rigorous testing. We maintain strict internal quality management frameworks and align with CE conformity metrics to deliver transparent, reproducible performance data via our public open-science repository.

To request raw batch performance data, submit formal vendor registration paperwork, or execute a fast-turnaround R&D manufacturing loop, contact us at inquiry@atomfair.com.

Item is dispatched under the Atomfair Shipping & Delivery Framework (Free worldwide shipping on orders over $59 USD). Return is governed by the Atomfair Return & Refund Policy (7-day technical return window).

Additional information

size

10×10×1.1mm, 20×20×1.1mm, 50×50×1.1mm, 100×100×1.1mm