Highlights
•MOCVD growth of a p-GaN/i-InGaN/n-GaN (PIN) solar cell on ZnO/Sapphire templates.
•In-depth structural characterizations showing no back-etching of ZnO.
•Chemical lift-off and wafer-bonding of the structure on float glass.
•Structural characterizations of the device on glass.
Abstract
p-GaN/i-InGaN/n-GaN (PIN) structures were grown epitaxially on ZnO-buffered c-sapphire substrates by metal [...]
PAM XIAMEN offers 3″ Silicon Wafer.
Material
Orient.
Diam.
Thck
(μm)
Surf.
Resistivity
Ωcm
Comment
n-type Si:P
[211-5°] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211-5°] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211-5°] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211-5°] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211-5°] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211] ±0.5°
3″
508
P/P
FZ 25-75
Prime
n-type Si:P
[211] ±0.5°
3″
1016
P/P
FZ 25-75
Prime
n-type Si:P
[211] ±0.5°
3″
1016
P/P
FZ 25-75
Prime
n-type Si:P
[211] ±0.5°
3″
1016
P/P
FZ 25-75
SEMI TESt
n-type Si:P
[111] ±0.5°
3″
415 ±15
E/E
FZ 10,000-12,000
SEMI Prime, Lifetime>1,500μs
n-type Si:P
[111] ±0.5°
3″
415 ±15
BROKEN
FZ 10,000-12,000
Broken E/E wafers, in two pieces, Lifetime>1,500μs,
n-type Si:P
[111] ±0.5°
3″
2500
C/C
FZ 7,000-13,000
SEMI, Individual cst
n-type Si:P
[111] ±0.5°
3″
370
P/E
FZ >5,000
SEMI [...]
2019-03-06meta-author
PAM XIAMEN offers 2004nm laser diode wafers.
Available Center Wavelengths: 1970 nm – 2051 nm
Wavelength Tolerance: +/- 1nm
CW Output Power (typical): 3mW (out of fiber)
SMSR (typical): >40 dB
Optical Linewidth: < 1.5 MHz
Temperature Tuning Coefficient (typical): 0.1 nm/°C
Current Tuning Coefficient (typical): 12 pm/mA
Slope Efficiency (typical): 0.12 [...]
2019-03-13meta-author
The use of an InP epitaxial layer grown at low temperatures before the growth of a step-graded InAsP metamorphic buffer has been shown to provide a large improvement in the crystal quality of the final metamorphic layer. The improvement is evidenced by over an [...]
2019-06-17meta-author
As an important part of new materials, semiconductor materials are the top priority of all countries in the world for the development of electronic information industry. It supports the development of localization of electronic information industry and is of great significance to industrial structure [...]
2019-04-02meta-author
We are an expert of semiconductor wafers in semiconductor industry, and we offer technology support and wafers selling for thousands of univerisities and industrial customers by our decades experience, including Cornell University, Stanford Univeristy,Peking University, Shandong Univerity, university of south carolina,Caltech Faraon lab (USA),University of California, Irvine (USA),Singapore MIT Alliance for Research and Technology Centre (SMART),West Virginia University,Purdue Univerity, University of California, Los Angeles,King Abdullah University of Science & Technology,Massachusetts Institute of Technology,University of Houston,University of Wisconsin,University of Science and Technology of China etc.
And now we show one article example as follows, who bought our wafers or service:
Article title:Characterization and comparison of commercially available silicon carbide (SIC) power switches
Published by:
K. Haehre ; M. Meisser ; F. Denk ; [...]
2019-12-09meta-author