PAM XIAMEN offers P-type Silicon. Please send us emails if you need other specs and quantity.
See below for a short list of our p-type silicon substrates.
P-type Silicon
Si 50.8mm P-type Boron Doped (100) 0.001-0.005 ohm-cm 280um SSP In stock
Si 76.2mm P-type Boron Doped (100) 1-10 [...]
2019-02-13meta-author
PAM XIAMEN offers 4″FZ Prime Silicon Wafer.
4″ Si wafer, R>20,000Ωcm
Silicon, Si wafers
orientation (100)
dimensions 100 mm x 525µm (+/-25µm) thick.
FZ >20 000 ohm.cm
Ra<0.5 nm
One side polished
Ra<0.5nm (µelectronic grade)
For more information, please visit our website: https://www.powerwaywafer.com,
send [...]
2019-07-05meta-author
We specialize in providing antimonide wafers, like InSb wafer: https://www.powerwaywafer.com/compound-semiconductor/insb-wafer.html. In addition, we will offer technology support for you. Here we share a paper “New Process Results in Smoother Indium Antimonide Substrates”, which is about modified chemomechanical polishing of InSb wafer.
Reprinted from: spie.org
Published by:
Patrick [...]
2022-07-08meta-author
PAM-XIAMEN supplies 6 inch c-doped semi-insulating GaAs substrates, which are prime grade and mechanical grade grown by VGF. For wafer details, please view specifications listed below:
1. Prime Grade C-doped Semi-insulating GaAs
PAM220704-GaAs-Un
Parameter
GaAs-Un-6in-625um-PP
UOM
Growth method
VGF
Grade
Prime grade (Epi-ready)
Dopant
C doped
Orientation
(100) ±0.5°
Orientation Angle
N/A
°
Diameter
150.0±0.2
mm
Thickness
625±25 [...]
2022-07-04meta-author
Physicists reveal material for high-speed quantum internet
Electrical excitation causes a point defect in the crystal lattice of silicon carbide to emit single photons, which are of use to quantum cryptography. Credit: Elena Khavina, MIPT
Researchers from the Moscow Institute of Physics and Technology have rediscovered [...]
2018-07-25meta-author
SiC and GaN Wide Bandgap Device Technology
Wide bandgap (WBG) devices offer significant advantages for next generation military and commercial systems. SiC MESFETs currently achieve power densities of 4.0 W/mm with power added efficiencies in excess of 60% on a repeatable basis. They are commercially [...]
2013-03-13meta-author