Xiamen Powerway Advanced Material Co., Ltd (PAM-XIAMEN) offers the highest purity InGaAs / InP Epitaxial Wafer in the industry today. Sophisticated manufacturing processes have been put in place to customize and produce high quality InP (Indium Phosphide) Epitaxial wafers up to 4 inches with wavelengths from 1.7 to 2.6μm, [...]
PAM-XIAMEN is able to supply you with P type SiC substrate, more specifications please see: https://www.powerwaywafer.com/p-type-silicon-carbide-substrate-and-igbt-devices.html.
SiC single crystal has the characteristics of wide bandgap, high critical breakdown electric field, high thermal conductivity, high carrier saturation drift speed, and good stability. Among the numerous crystal [...]
2024-04-19meta-author
PAM XIAMEN offers 3″ Silicon Wafer-14
3″ Si wafer(32849), R≥200Ωcm
1. Diameter: 76.2 ± 0.1mm
2. The type of alloying: N-type/ phosphorus
.3. Orientation (111) ±0.5º
4. Disorientation 4°±0.5º to <110> axis direction
5. Resistivity: ≥200Ωcm
6. Primary surface: semi std
7. Secondary surface: none
8. Thickness: 380±25μm
9. Overall thickness variation on the plate [...]
2019-11-08meta-author
IR images reveal that Te inclusions exist in CdZnTe crystal in the form of square, hexagonal and triangular shapes. The density of Te inclusions for sizes above 5 μm sharply varied from 2.27 × 103 cm−2 to 4.52 × 105 cm−2 with a consequent reduction in IR transmittance from ∼60.5% to ∼55% when the Te-rich volume increased [...]
PAM-XIAMEN, a leading SiC epitaxial wafer manufacturer, can offer 4H SiC epitaxial wafers for MOS fabrication, which refer to a single crystal film(epitaxial layer) with certain requirements and the same crystal growing on a silicon carbide substrate. The SiC epitaxial wafer market size is [...]
2021-05-17meta-author
The single crystal germanium is n type at room temperature, and the resistivity shows non-single dependence on temperature. When conduction type transits from n type to p type, the bulk germanium resistivity is in maximum, and the carrier mobility is declining. With the increasing [...]
2021-11-10meta-author