PAM XIAMEN offers GD3GA5O12 NEODYNIUM DOPED GADOLINIUM GALLIUM GARNET CRYSTALS SUBSTRATES.
Nd:GGG (neodymium doped gadolinium gallium garnet)
Chemical formula: Nd:Gd3Ga5O12
Nd:GGG single crystal has excellent properties, such as high mechanical strength, chemical stability, thermal conductivity and thermal capacity, wide absorption bands at around 808 nm and long [...]
2019-03-12meta-author
PAM XIAMEN offers 2″ Silicon Wafer.
Material
Orient.
Diam.
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
p-type Si:B
[111]
2″
1000
P/E
0.001-0.005
SEMI Prime
p-type Si:B
[111] ±0.5°
2″
500
P/P
<0.01
SEMI Prime
p-type Si:B
[111] ±0.5°
2″
500
P/P
<0.01 {0.00087-0.00100}
SEMI Prime
p-type Si:Ga
Poly.
2″
C/C
0.024-0.036
Gallium doped Concentrate (each with measured Gallium content)
n-type Si:P
[110]
2″
280
P/E
19-33
SEMI Prime, 1 Flat @ [1,-1,0], in hard cst
n-type Si:P
[110]
2″
280
P/E
19-33
SEMI Prime,
n-type Si:P
[110] ±0.5°
2″
300
P/E
1-5
SEMI Prime, , TTV<5μm
n-type Si:Sb
[110]
2″
375
P/E
0.005-0.020
SEMI
n-type Si:Sb
[110]
2″
375
P/E
0.005-0.020
SEMI
n-type Si:P
[100]
2″
400
P/P
210-880
SEMI Prime,
n-type Si:P
[100]
50mm
280
P/E
130-280
SEMI Prime,
n-type Si:P
[100]
2″
300
P/P
33-48
SEMI TEST [...]
2019-03-07meta-author
P Type GaN Template
PAM-XIAMEN Offers p type GaN Template
Published on December,27, 2012
Xiamen Powerway Advanced Material Co.,Ltd (PAM-XIAMEN), the leading developer and supplier of compound semiconductor crystal and wafer, today announces mass production of p type Mg doped GaN template.
“Now we can offer wide range [...]
2012-12-27meta-author
PAM XIAMEN offers Lithium Chip.
Lithium Chip 16 mm Dia x 0.6 mm Thickness for Li-ion Battery R&D
Lithium chip is widely used for Li-ion and Li metal rechargeable battery R&D.
SPECIFICATIONS:
Purity
99.9% Lithium
Melting Point
180.5 °C
Density
0.534 g/cm3
Color
Silver
Dimension
16 mm x 0.6 mm
(diameter x [...]
2019-05-07meta-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
Growth of InGaN layers on (1 1 1) silicon substrates by reactive sputtering
InGaN films were grown on (1 1 1) silicon substrates by reactive magnetron sputtering. It was demonstrated that the indium composition in the InGaN films can be controlled by varying the ratio of the applied radio-frequency [...]
2014-02-08meta-author
InGaN