PAM XIAMEN offers 2″ Diameter Wafer-2″ wafers (100).
2″ Diameter Wafer
2″ wafers (100)
2“ Undoped Ge (100)
Ge Wafer (100) Undoped, 2″ dia x 0.5 mm, 1SP, resistivities: >50 ohm-cm
Ge Wafer (100) Undoped, 2″ dia x 0.5 mm, resistivities: >50 ohm-cm, 2SP [...]
2019-04-23meta-author
PAM-XIAMEN can offer UV LED epi wafer, which is grown by our MOCVD range from 275nm to 405nm. Ultraviolet electromagnetic radiation, commonly known as UV, is used in many industries and applications. The emerging UV LED will be a competitive technology that can drive new innovative applications. UV-LED has [...]
2018-08-15meta-author
PAM XIAMEN offers 2″ Silicon Wafer.
Material
Orient.
Diam.
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
n-type Si:P
[100]
2″
200
P/P
FZ 500-1,000
SEMI, , in hard ccassettes of 4, 5 & 5 wafers
n-type Si:P
[100]
2″
500
P/P
FZ >200
SEMI Prime,
n-type Si:P
[100]
2″
225
P/P
FZ >100
SEMI, , Individual cst, 1 very deep scratch
n-type Si:P
[100]
2″
280
P/E
FZ 60-90
SEMI Prime
n-type Si:P
[100]
2″
150
P/P
FZ 50-110
SEMI Prime,
n-type Si:P
[100]
2″
280
P/P
FZ 2-5
SEMI Prime
n-type Si:P
[111-3.5° towards[110]] ±0.5°
2″
279 ±15
P/E
FZ >2,000
SEMI Prime
n-type Si:P
[111] ±0.5°
2″
280
P/P
FZ 2,000-4,000
SEMI Prime, TTV<5μm, Both-sides Epi-Ready
n-type Si:P
[111] ±0.5°
2″
280
P/P
FZ 2,000-4,000
SEMI Prime, TTV<5μm
n-type [...]
2019-03-07meta-author
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 between the grown ZnO nanorods and substrate, which can interfere with light emission and extraction. Here we [...]
PAM-02A2 series detectors are super small sized detectors based on planar CZT. They can detect α-ray, γ-ray and β-ray simultaneously.
PAM-02A2 integrates CZT crystal, low noise charge preamplifier circuit, SK shaping circuit and high-voltage circuit. With ordered cable, it can output Quasi-gaussian signal or [...]
2019-04-23meta-author
IR images reveal that Te inclusions exist in CdZnTe crystal in the form of square, hexagonal and triangular shapes. The density of Te inclusions for sizes above 5 μm sharply varied from 2.27 × 103 cm−2 to 4.52 × 105 cm−2 with a consequent reduction in IR transmittance from ∼60.5% to ∼55% when the Te-rich volume increased [...]