You can buy Highly Oriented Pyrolytic Graphite (HOPG) sheets from PAM-XIAMEN. HOPG is a relatively new form of high purity carbon and provides microscopists with a renewable and smooth surface. Unlike mica, HOPG is completely non-polar, and for samples where elemental analysis will also be done, [...]
2019-05-06meta-author
PAM XIAMEN offers 6″ FZ Silicon Wafer-8
Diameter: 150 mm
N type
Orientation: (100)
Thickness: 675±10μm
Resistivity 6,000-10,000Ωcm
Double Side Polished
For more information, send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
2021-03-19meta-author
PAM XIAMEN offers Glass Substrates(ITO Coated Glass / Plastic Substrates and ITO/ZnO coated Sodalime Glass).
ITO Coated Glass / Plastic Substrates
ITO coated(sodalime) glass has highly electrical conductivity yet with excellent transparence. It has been widely used in flat panel display and solar cells.
[...]
2019-04-18meta-author
PAM XIAMEN offers 4″ Prime CZ Si wafer with one side sputtering Cr/Au layer thickness 10/50nm
4inch Prime CZ-Si wafer 4 inch (+/- 0.5 mm),
thickness = 100 ± 25 µm,
orientation (100)(+/-0.5°),
2-side polished,
p or n type (no matter) ,
resistivity ? Ohm cm (no matter),
Particle: 0.33µm, <qty30
ttv ≤ 10um,warp ≤30um
One side sputtering Cr/Au Layer with the thickness 10nm/50nm
For more information, send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
2021-03-16meta-author
Fabrication of ZnO nanorod/p-GaN high-brightness UV LED by microwave-assisted chemical bath deposition with Zn(OH)2–PVA nanocomposites as seed layer
Chemical solution deposition is a low-temperature and possibly the lowest-cost method of growing ZnO nanorods on a GaN substrate. However, most reported methods leave an interface layer [...]
2013-08-01meta-author
Highlights
•GaSb p–i–n diodes were grown on Si and GaAs using interfacial misfit (IMF) arrays.
•Transmission electron microscopy images revealed arrays of 90° misfit dislocations.
•Threading dislocation densities of around View the MathML source were found in each case.
•Lower dark currents and higher quantum efficiency was found [...]