PAM-XIAMEN, an epi-provider for GaN LED on Si, can offer high performance blue and green light-emitting diode prototypes that grow 2”, 4”, 6” and 8” gallium nitride (GaN) layers based on LED wafer structure on silicon substrate as well as sapphire substrates. Silicon is a low-cost compared with sapphire substrates, [...]
2018-08-16meta-author
PAM XIAMEN offers high-quality Bi2Te3 single crystal.
Bismuth telluride (Bi2Te3) is a gray powder that is a compound of bismuth and tellurium also known as bismuth(III) telluride. It is a semiconductor which, when alloyed with antimony or selenium is an efficient thermoelectric material for [...]
2019-04-17meta-author
PAM XIAMEN offers 4″FZ Silicon Ignot.
Silicon ingot, per SEMI, 100.7±0.3mmØ,
FZ n-type Si:P[111]±2.0°, Ro=(2,000-4,000)Ohmcm,
NO Flats.
NOTE: Oxygen<1E16/cc, Carbon<1E16/cc,
MCC Lifetime>1,000µs
For more information, please visit our website: https://www.powerwaywafer.com,
send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
Found in 1990, Xiamen Powerway Advanced Material [...]
2019-07-05meta-author
PAM XIAMEN offers YIG Epi. Film on GGG.
YIG Film ( 3 microns) on GGG Substrate, (111), 10x10x0.5mm, single side coated
YIG Film ( 3 microns) on GGG Substrate, (111), 5x5x0.5mm, single side coated
YIG Film (4-5 um, ) on both sides of GGG [...]
2019-04-29meta-author
PAM XIAMEN offers LD Bare Bar for 880nm@cavity 2mm.
Brand: PAM-XIAMEN
Wavelength: 880nm
Filling Factor: 30%
Output Power: 80W
Cavity Length:2mm
For more information, please visit our website: https://www.powerwaywafer.com,
send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
Found in 1990, Xiamen Powerway Advanced Material Co., [...]
2019-05-09meta-author
The process of silicon carbide oxidation is simple. The silicon carbide substrate can be directly thermally oxidized to obtain SiO2 on the substrate. Silicon carbide is the only compound semiconductor that can obtain high-quality SiO2 through silicon carbide thermal oxidation. The theoretical formula is as follows:
SiC+1.5O2→SiO2+CO
That is, to grow 100nm [...]
2021-04-26meta-author