Indium-Doped Tin Oxide (ITO) Coated Wafers
Glass or substrate wafers coated with indium tin oxide doped for transparent conductive films in touchscreens and OLED displays. The doping enhances electrical conductivity while maintaining transparency. Classified under HTS 3818.00.00.95 as other doped compounds for electronics.
Import Duty Rates by Country of Origin
| Origin Country | MFN Rate | Ch.99 Surcharges | Total Effective Rate |
|---|---|---|---|
| π¨π³China | Free | +50.0% | 50% |
| π²π½Mexico | Free | β | Free |
| π¨π¦Canada | Free | β | Free |
| π©πͺGermany | Free | β | Free |
| π―π΅Japan | Free | β | Free |
Alternative Classifications
This product could be classified differently depending on its characteristics or intended use.
If ITO as powder or non-electronic form
Undoped or bulk ITO oxides fall under inorganic metal oxides in Chapter 28.
If safety glass with conductive coating for screens
Glass substrates with ITO may classify under drawn glass if display-oriented.
If mounted as assembled programmable displays
ITO wafers in final display modules shift to electrical machinery.
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Import Tips & Compliance
β’ Declare indium content for conflict minerals reporting; sheet resistance specs required
β’ Anti-scratch protective films must be noted; avoid classification as finished displays
Related Products under HTS 3818.00.00.95
Aluminum-Doped Zinc Oxide (AZO) Wafers
Transparent conductive oxide wafers doped with aluminum for cost-effective alternatives to ITO in solar cells and touch panels. Provides high transparency and low resistivity. HTS 3818.00.00.95 for doped electronic compounds.
Double-Sided Polished Doped Silicon Wafers
Precision-polished silicon wafers doped on both sides for advanced sensors and MEMS fabrication. Ensures flatness for thin-film deposition in electronics. Covered by HTS 3818.00.00.95.
Boron-Doped Silicon Wafers
Thin discs of silicon intentionally doped with boron to create p-type semiconductors for use in electronics manufacturing. These wafers serve as the foundational substrate for integrated circuits, transistors, and solar cells. Classified under HTS 3818.00.00.95 as chemical compounds doped for electronics in wafer form.
Phosphorus-Doped N-Type Silicon Wafers
Silicon wafers doped with phosphorus atoms to achieve n-type conductivity, critical for fabricating diodes, MOSFETs, and photovoltaic cells in electronics. The doping alters electrical properties for semiconductor applications. Falls under HTS 3818.00.00.95 as other doped chemical compounds for electronics.
Arsenic-Doped Gallium Arsenide Wafers
Gallium arsenide substrates doped with arsenic or related impurities for high-frequency electronics like RF amplifiers and LEDs. These compound semiconductors offer superior electron mobility for optoelectronics. Covered by HTS 3818.00.00.95 for other doped chemicals in wafer form.
Antimony-Doped Silicon Wafer Substrates
Silicon discs doped with antimony for n-type semiconductors used in power electronics and sensors. Provides higher doping levels than phosphorus for specific high-current applications. HTS 3818.00.00.95 applies to these other doped electronic compounds.