S
Shuit-Tong Lee
Researcher at Soochow University (Suzhou)
Publications - 1129
Citations - 84313
Shuit-Tong Lee is an academic researcher from Soochow University (Suzhou). The author has contributed to research in topics: Silicon & Nanowire. The author has an hindex of 138, co-authored 1121 publications receiving 77112 citations. Previous affiliations of Shuit-Tong Lee include University of British Columbia & Hong Kong University of Science and Technology.
Papers
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Journal ArticleDOI
Low-energy separation by implantation of oxygen structures via plasma source ion implantation
Ling Zhang,J. L. Shohet,D. Dallmann,John H. Booske,R. R. Speth,Krishna Shenai,Matthew Goeckner,J. B. Kruger,Paul Rissman,J. E. Turner,E.A. Perez-Albuerne,Shuit-Tong Lee,N. Meyyappan +12 more
TL;DR: The initial results show that oxygen can be implanted by PSII and suggest that a buried layer of silicon dioxide has been formed in the implanted wafers.
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Nanocubic boron nitride/nanodiamond multilayer structures
H. Q. Li,Kar Man Leung,K. L. Ma,Q. Ye,Y. M. Chong,Y. S. Zou,Wenjun Zhang,Shuit-Tong Lee,I. Bello +8 more
TL;DR: In this article, the N-cBN/ND multilayer structures with each alternating layer being ∼100nm thick have been prepared by magnetron sputter and microwave plasma enhanced chemical vapor depositions.
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Fabrication of large-scale ultra-fine Cd-doped ZnO nanowires
TL;DR: In this article, the authors demonstrate bulk synthesis of highly crystal Cd-doped ZnO nanowires by using (Cd+Zn) powders at 600°C.
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Integrated Nanorods and Heterostructure Field Effect Transistors for Gas Sensing
S. K. Jha,Chao Ping Liu,Zhen Hua Chen,Kevin J. Chen,Igor Bello,Juan Antonio Zapien,Wenjun Zhang,Shuit-Tong Lee +7 more
TL;DR: In this article, a gas sensor that integrates an array of ZnO nanorods and AlGaN/GaN heterostructure field effect transistors (HFETs) is demonstrated.
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Laser molecular beam epitaxy of BaTiO3 and SrTiO3 ultra thin films
TL;DR: In this paper, BaTiO3(BTO) and SrTiO 3(STO) ultra thin films of 1-10 unit cell layers are successfully fabricated on STO(0 0 1) substrates by laser molecular beam epitaxy.