Ternary semiconductor thin films of InAsP epitaxially on InP can be offered to customers for developing a better and a more reliable distributed feedback (DFB) lasers. Our InAsP layer has excellent properties, the size of the InAsP layer can be controlled by the height [...]
2017-08-16meta-author
PAM-XIAMEN offers GaN on SiC HEMT epitaxial wafer, which is HEMT stacks grown on semi insulation SiC for fabricating microwave RF devices, working on III-N material-growth and devices.
1. GaN on SiC HEMT Wafer for RF Application
No.1 GaN-on-SiC HEMT Epistructure
Wafer size
2”, 3”, 4”, 6”
AlGaN/GaN HEMT structure
Refer 1.2
Carrier density
6E12~2E13 cm2
Hall mobility
1300~2200 [...]
2019-05-17meta-author
PAM XIAMEN offers Silver(Ag) on Si wafer .
Silver Film on Silicom Wafer ,Ag: 0.2 microns / ,Si(100) P-type R:1-20 ohm.cm
Silver Metallic Film
Film Deposition by DC Sputtering
Silver Thickness: 0.2 microns
Film Resistivity: N/A
Film Crystallinity: N/A
Roughness, RMS: 4.87 nm and < [...]
2019-04-29meta-author
PAM XIAMEN offers Silicon Ingots.
Material Description
3″Ø×174mm p-type Si:Ga[100] (1.77-2.13)Ωcm, Ingot “As-Grown”, (82-85)mmØ, RRV=8%, Oxygen=6.2E17/cc
4″Ø×(504+504+523+147+144)mm, p-type Si:B[111], As-Grown, made by Crysteco (5 ing 6c, 10b(Gnd 1F), 14a(Gnd 1F), 21Aa, 30d(Gnd 1F))
3″Ø ingot p-type Si:B[111] ±0.5°, Ro: 1-10 Ohmcm, As-Grown, (3 ingots: 217mm, 32mm, 169mm)
3″Ø×36mm ingot, p-type Si:B[211]±2°, [...]
2019-03-08meta-author
PAM XIAMEN offers 60+1mm FZ Si Ingot -2
FZ Si Ingot
Diameter 60+1mm, N-type, <111>±2°
Resistivity>3000Ωcm
Oxygen/Carbon Content 10Е16см-3
The silicon content not less than 99.999999%
Length 150-480mm
MCC lifetime>1000μs
The dislocation density not, Swirl not
For more information, send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
2020-03-11meta-author
Improvement in spontaneous emission rates for InGaN quantum wells on ternary InGaN substrate for light-emitting diodes
The spontaneous emission characteristics of green- and red-emitting InGaN quantum wells (QWs) on ternary InGaN substrate are analyzed, and the radiative recombination rates for the QWs grown on ternary substrate were compared with those of InGaN QWs on [...]
2014-04-02meta-author