Joel K. W. Yang
Singapore University of Technology and Design
221 Papers
1.1K Citations
Joel K. W. Yang is an academic researcher from Singapore University of Technology and Design. The author has contributed to research in topics: Plasmon & Lithography. The author has an hindex of 54, co-authored 187 publications. Previous affiliations of Joel K. W. Yang include Technische Universität München & Chinese Academy of Sciences.
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Papers
Electrochemical development of hydrogen silsesquioxane by applying an electrical potential
Sebastian Strobel,Katherine J. Harry,Huigao Duan,Joel K. W. Yang,Vitor R. Manfrinato,Karl K. Berggren +5 more
TL;DR: Nested-L test structures with a pitch as small as 9 nm were developed using this electrochemical technique in saline solution without adding hydroxyl ions and it was shown that high-resolution structures can be electrochemically developed in deionized water alone.
Determination of Position Jitter and Dot-Size Fluctuations in Patterned Arrays Fabricated by the Directed Self-Assembly of Gold Nanoparticles
Mohamed Asbahi,Kevin T. P. Lim,FuKe Wang,Maria Y. Lin,Kheong Sann Chan,Baolei Wu,Vivian Ng,Joel K. W. Yang +7 more
TL;DR: In this paper, the effects of position jitter and dot-size fluctuations are examined by performing image analysis on scanning electron microscopies of samples fabricated with areal densities of 4.4 Tdot/in2.
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Multi‐Level Optical Switching by Amorphization in Single‐ and Multi‐Phase Change Material Structures
Simon Wredh,Yunzheng Wang,Joel K. W. Yang,J. Simpson +3 more
TL;DR: Multi-level optical switching by amorphization in single- and multi-phase change material structures demonstrates 16 different reflectance levels and a multi-material switch with four discrete reflectance levels.
A facile approach for screening isolated nanomagnetic behavior for bit-patterned media
Naganivetha Thiyagarajah,Mohamed Asbahi,Rick T J Wong,Kendrick W M Low,Nikolai Yakovlev,Joel K. W. Yang,Vivian Ng +6 more
TL;DR: The presence and relative intensities of exchange and dipolar interactions in Co-Pd multilayer-based BPM fabricated by direct deposition are determined and the absence of exchange interactions indicates that direct deposition is a promising approach to BPM fabrication.
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