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Xiao Ming Goh
Researcher at Agency for Science, Technology and Research
Publications - 29
Citations - 1293
Xiao Ming Goh is an academic researcher from Agency for Science, Technology and Research. The author has contributed to research in topics: Plasmon & Birefringence. The author has an hindex of 12, co-authored 29 publications receiving 1151 citations. Previous affiliations of Xiao Ming Goh include University of Melbourne.
Papers
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Journal ArticleDOI
Plasmonic Color Palettes for Photorealistic Printing with Aluminum Nanostructures
Shawn J. Tan,Lei Zhang,Di Zhu,Xiao Ming Goh,Ying Min Wang,Karthik Kumar,Cheng-Wei Qiu,Joel K. W. Yang +7 more
TL;DR: This work expands the visible color space through spatially mixing and adjusting the nanoscale spacing of discrete nanostructures to pave the way toward a new generation of low-cost, high-resolution, plasmonic color printing with direct applications in security tagging, cryptography, and information storage.
Journal ArticleDOI
Three-dimensional plasmonic stereoscopic prints in full colour
Xiao Ming Goh,Yihan Zheng,Shawn J. Tan,Lei Zhang,Karthik Kumar,Cheng-Wei Qiu,Joel K. W. Yang +6 more
TL;DR: In this paper, the authors demonstrate independently tunable biaxial color pixels composed of isolated nanoellipses or nanosquare dimers that can exhibit a full range of colours in reflection mode with linear polarization dependence.
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Plasmonic lenses formed by two-dimensional nanometric cross-shaped aperture arrays for Fresnel-region focusing
TL;DR: The experimental demonstration of what are to the authors' knowledge the first two-dimensional planar plasmonic lenses formed by an array of spatially varying cross-shaped apertures in a metallic film for Fresnel-region focusing is presented.
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Comparative Study of Plasmonic Colors from All-Metal Structures of Posts and Pits
TL;DR: In this paper, the chromatic range of protrusions and indentations, two possible architectures that could form on an all-metal surface, and further investigate the modulation of color when the protrusion evolve into the reversed structures of indentations.
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All-metal nanostructured substrates as subtractive color reflectors with near-perfect absorptance.
TL;DR: All-metal structures consisting of nanoprotrusions on a bulk silver layer are theoretically investigated and shown to have narrow near-perfect absorption peaks, which produce subtractive colors with high saturation, in accordance with Schrödinger's rule for maximum pigment purity.