Skip to content
RDL
Network
Ekosistem
Uygulama değiştir
EN
Hakkımızda
SSS
Giriş yap
Başla
Investigation of microstructure and V-defect formation in InxGa1−xN/GaN MQW grown using temperature-gradient metalorganic chemical vapor deposition — Manuel Johnson (2005) | RDL Network
Back
Cite
Save
Save for later
Share
Home
Publications
Investigation of microstructure and V-defect formation in InxGa1−xN/GaN MQW grown using temperature-gradient metalorganic chemical vapor deposition
Shared by
Junqiao Wu
University of California, Berkeley
Investigation of microstructure and V-defect formation in InxGa1−xN/GaN MQW grown using temperature-gradient metalorganic chemical vapor deposition
Article
2005
en
Authors
+5 more
MJ
Manuel Johnson
ZL
Z. Liliental‐Weber
DZ
Dmitri N. Zakharov
Discussion
(0)
Sign in
to like and join the discussion.
No comments yet. Be the first to comment.
Related publications
Article
2004
Investigation of microstructure and V-defect formation inInxGa1-xN/GaN MQW grown using temperature-gradient MOCVD
Manuel Johnson
,
Z. Liliental‐Weber
,
D.N. Zakharov
,
R.J. Jorgenson
,
Junqiao Wu
,
W. Shan
,
Edith Bourret-Courchesne
Article
2003
Growth and characterization of InxGa1−xN MQW using a novel method of temperature gradient OMVPE
Manuel Johnson
,
R.J. Jorgenson
,
Junqiao Wu
,
W. Shan
,
Edith Bourret-Courchesne
Article
2004
High quality InN/GaN heterostructures grown by migration enhanced metalorganic chemical vapor deposition
R. S. Qhalid Fareed
,
Rahul Jain
,
R. Gaška
,
M. S. Shur
,
Junqiao Wu
,
W. Walukiewicz
,
M. Asif Khan
Article
2002
Characterization of band bendings on Ga-face and N-face GaN films grown by metalorganic chemical-vapor deposition
Ho Won Jang
,
Jung‐Hee Lee
,
Jong‐Lam Lee
Article
2021
The role of solid, liquid and gaseous hydrocarbon precursors on chemical vapor deposition grown carbon nanomaterials' growth temperature
Nasrat Hannah Shudin
,
Mohd ‘Azizir -Rahim Mukri
,
Madzlan Aziz
,
Mohd Hafiz Dzarfan Othman
,
Masaki Tanemura
,
Mohd Zamri Mohd Yusop
Synthetic Metals
Discussion(0)
No comments yet. Be the first to comment.