PAM XIAMEN offers 2″ FZ Silicon Ingot with Diameter 50mm
Silicon ingot, per SEMI, G Ø50mm
FZ n-type Si:P[100]±2.0°,
Ro=(1,500-7,000)Ohmcm
Ground Ingot, NO Flats,
MCC Lifetime>1000µs,
Oxygen<1E16/cc, Carbon<1E16/cc,
Adequately packed, CofC: present.
For more information, send us email at sales@powerwaywafer.com and powerwaymaterial@gmail.com
2020-05-27meta-author
Optical and electronic simulation of gallium arsenide/silicon tandem four terminal solar cells
A tandem solar cell in a mechanical (stack like) arrangement of gallium arsenide and silicon solar cells is evaluated as a pathway towards higher efficiency terrestrial solar cells. In this work the technical [...]
2013-09-24meta-author
Size and distribution of Te inclusions in detector-grade CdZnTe ingots
To observe the Te inclusions distribution along the axial direction of CdZnTe ingots, batches of as-grown detector-grade CdZnTe crystals grown by vertical Bridgman method, were investigated using IR transmission imaging. However, there is not a [...]
PAM XIAMEN offers 4″ Silicon Wafer.
Material
Orient.
Diam.
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
p-type Si:B
[100-6°]
4″
525
P/E
1-100
SEMI Prime
p-type Si:B
[100]
4″
350
P/E
0.08-0.12
SEMI Prime, TTV<5μm
p-type Si:B
[100-4°] ±0.5°
4″
381
P/E
0.01-0.02
SEMI Prime
p-type Si:B
[100]
4″
800
P/EP
0.01-0.02
SEMI Prime
p-type Si:B
[100]
4″
3100
P/P
CZ 0.006-0.009
SEMI Prime, Individual cst
p-type Si:B
[100-6°]
4″
525
P/E
0.0042-0.0047
SEMI Prime
p-type Si:B
[100]
4″
150 ±15
P/P
0.001-0.005
SEMI Prime, TTV<2μm
p-type Si:B
[111-3°]
4″
300
P/E
3-4
SEMI Prime
p-type Si:B
[111-3°]
4″
400
P/E
0.015-0.018
SEMI Prime
p-type Si:B
[111]
4″
525
P/E
0.005-0.006
SEMI Prime
p-type Si:B
[111-1.5°]
4″
525
P/E
0.002-0.004
SEMI Prime
p-type Si:B
[111]
4″
300
P/E
0.001-0.005
SEMI Prime
n-type Si:P
[110] ±0.5°
4″
525
P/P
20-80
SEMI Prime @ [111] – Secondary 70.5° [...]
2019-03-06meta-author
Group III nitride materials are a kind of direct band gap materials, which have the advantages of wide band gap, strong chemical stability, high breakdown electric field and high thermal conductivity. They have broad application prospects in the fields of efficient light-emitting devices and [...]
2022-11-25meta-author
We have successfully produced and characterized thin single crystal Ge films on sapphire substrates (GeOS). Such a GeOS template offers a cost-effective alternative to bulk germanium substrates for applications where only a thin (<2 µm) Ge layer is needed for device operation. The GeOS [...]
2020-02-18meta-author