CdZnTe monocrystalline wafers
Xiamen Powerway Advanced Material Co.,Ltd., provide CdZnTe monocrystalline wafers in different size for HgCdTe substrate epitaxy. And now PAM-XIAMEN offer specification as follows:
S.No.
Parameters
Detail
1
Undoped Cd1_xZnxTe Single crystal substrates
From wafer to wafer x =0.040± 0.005
On one wafer x =0.040± 0.005
(Twin & micro twins free [...]
Highlights
•Elaboration of a smooth 3C–SiC membrane on a SiC substrate.
•Faceted surface for the (110) orientation but smoother for the (111) orientation.
•Roughness of the 3C–SiC membrane limited to 9 nm for the (111) orientation.
•New MEMS devices feasible.
•The huge SiC properties could be entirely exploited.
The cubic [...]
PAM XIAMEN offers BaSrTiO3 Film on substrate.
BaSrTiO3 Film ( 400nm) on Nb.SrTiO3(wt 0.7%), 10x10x0.5mm,1sp
Ba1-xSrxTiO3 is an excellent enhanced dielectronic film grown on Nb doped SrTiO3 conductive substrate via special spin coating:
Film Sppecifications:
Chemical composition: BaSrTiO3
Film thickness: ~ 400 nm
Crystalline: Polycrystal
Growth [...]
2019-04-26meta-author
InGaP / GaAs heterojunction bipolar transistor (HBT) has become one of the highly competitive and promising high-speed solid-state devices in the current microwave and millimeter wave field due to its high reliability, low cost, and relatively mature technology. PAM-XIAMEN provide InGaP / GaAs HBT wafers. [...]
2023-07-03meta-author
PAM XIAMEN offers 2 inch GaN (Gallium Nitride) HEMT Epitaxial Wafers on different substrates such as silicon substrate, sapphire substrate, silicon carbide (SiC) substrate. This GaN epitaxial wafer is for high-electron-mobility transistors (HEMT).
We sell directly from the factory, and therefore can offer the best prices on the market for high [...]
2019-03-11meta-author
Light-emitting InGaN/GaN Heterojunction Bipolar Transistors
The electrical and optical characteristics of high-gain, small-area InGaN/GaN heterojunction bipolar transistors (HBTs) grown by metal-organic chemical vapor depositionon sapphire substrate are reported. The common-emitter current-voltage characteristics of a 3×10 μm2 emitter device demonstrates a current gain β = ΔIC/ΔIB = [...]
2012-12-06meta-author