Soon Hock Ng

2.4k total citations
98 papers, 1.6k citations indexed

About

Soon Hock Ng is a scholar working on Atomic and Molecular Physics, and Optics, Biomedical Engineering and Electrical and Electronic Engineering. According to data from OpenAlex, Soon Hock Ng has authored 98 papers receiving a total of 1.6k indexed citations (citations by other indexed papers that have themselves been cited), including 30 papers in Atomic and Molecular Physics, and Optics, 26 papers in Biomedical Engineering and 25 papers in Electrical and Electronic Engineering. Recurrent topics in Soon Hock Ng's work include Digital Holography and Microscopy (13 papers), Gold and Silver Nanoparticles Synthesis and Applications (11 papers) and Laser Material Processing Techniques (11 papers). Soon Hock Ng is often cited by papers focused on Digital Holography and Microscopy (13 papers), Gold and Silver Nanoparticles Synthesis and Applications (11 papers) and Laser Material Processing Techniques (11 papers). Soon Hock Ng collaborates with scholars based in Australia, Japan and Lithuania. Soon Hock Ng's co-authors include Udo Bach, Saulius Juodkazis, Yuanhui Zheng, Daniel E. Gómez, Vijayakumar Anand, Tomas Katkus, J. Justin Gooding, Thibaut Thai, C. H. Sederholm and Paul Mulvaney and has published in prestigious journals such as Journal of the American Chemical Society, Advanced Materials and Angewandte Chemie International Edition.

In The Last Decade

Soon Hock Ng

92 papers receiving 1.5k citations

Peers

Soon Hock Ng

EOMM

AMPO

EEE

Toralf Scharf Switzerland

Gilles Tessier France

Takayuki Okamoto Japan

U. Efron United States

Ajay Ghosh India

Kenji Okamoto Japan

Kebin Shi China

Cheng-Chung Lee Taiwan

Toralf Scharf Switzerland

Soon Hock Ng

946 ×1.6

600 ×1.1

EOMM

194 ×0.5

732 ×1.8

AMPO

619 ×1.8

EEE

Citations per year, relative to Soon Hock Ng Soon Hock Ng (= 1×) peers Toralf Scharf

Countries citing papers authored by Soon Hock Ng

Since Specialization

Citations

This map shows the geographic impact of Soon Hock Ng's research. It shows the number of citations coming from papers published by authors working in each country. You can also color the map by specialization and compare the number of citations received by Soon Hock Ng with the expected number of citations based on a country's size and research output (numbers larger than one mean the country cites Soon Hock Ng more than expected).

Fields of papers citing papers by Soon Hock Ng

Since Specialization

Physical SciencesHealth SciencesLife SciencesSocial Sciences

This network shows the impact of papers produced by Soon Hock Ng. Nodes represent research fields, and links connect fields that are likely to share authors. Colored nodes show fields that tend to cite the papers produced by Soon Hock Ng. The network helps show where Soon Hock Ng may publish in the future.

Co-authorship network of co-authors of Soon Hock Ng

This figure shows the co-authorship network connecting the top 25 collaborators of Soon Hock Ng. A scholar is included among the top collaborators of Soon Hock Ng based on the total number of citations received by their joint publications. Widths of edges represent the number of papers authors have co-authored together. Node borders signify the number of papers an author published with Soon Hock Ng. Soon Hock Ng is excluded from the visualization to improve readability, since they are connected to all nodes in the network.

All Works

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20 of 20 papers shown

Peters, Sönke, Mingjian Wu, S. P. Harsha, et al.. (2025). Role of polycrystalline F–SnO ₂ substrate topography in formation mechanism and morphology of Pt nanoparticles by solid-state-dewetting. Nanoscale. 17(23). 14338–14347.

Vongsvivut, Jitraporn, Meguya Ryu, Soon Hock Ng, et al.. (2025). Bridging spectroscopy and advanced molecular orientation analysis with new 4＋ angle polarization toolbox in Quasar. Computers in Biology and Medicine. 196(Pt A). 110573–110573. 1 indexed citations

Kahro, Tauno, Vipin Tiwari, Daniel Smith, et al.. (2024). Coded aperture imaging using non-linear Lucy-Richardson algorithm. Optics & Laser Technology. 183. 112300–112300. 3 indexed citations

Mu, Haoran, Daniel Smith, Soon Hock Ng, et al.. (2024). Fraxicon for Optical Applications with Aperture ∼1 mm: Characterisation Study. Nanomaterials. 14(3). 287–287. 1 indexed citations

Smith, Daniel, Tauno Kahro, Aarne Kasikov, et al.. (2024). Extending the Depth of Focus of an Infrared Microscope Using a Binary Axicon Fabricated on Barium Fluoride. Micromachines. 15(4). 537–537. 2 indexed citations

Ryu, Meguya, Soon Hock Ng, Vygantas Mizeikis, et al.. (2024). Determination of Stokes Vector from a Single Image Acquisition. Annalen der Physik. 536(6). 2 indexed citations

Vongsvivut, Jitraporn, Soon Hock Ng, Meguya Ryu, et al.. (2023). Linearly Polarized Infrared Spectroscopy for the Analysis of Biological Materials. Applied Spectroscopy. 77(9). 977–1008. 8 indexed citations

Amudhavel, J., Daniel Smith, Soon Hock Ng, et al.. (2023). Improved Classification of Blurred Images with Deep-Learning Networks Using Lucy-Richardson-Rosen Algorithm. Photonics. 10(4). 396–396. 12 indexed citations

Ng, Soon Hock, et al.. (2023). Feasibility of Magneto-Encephalography Scan under Color-Tailored Illumination. Applied Sciences. 13(5). 2988–2988. 1 indexed citations

10.

Smith, Daniel, et al.. (2023). Imaging with Diffractive Axicons Rapidly Milled on Sapphire by Femtosecond Laser Ablation. SHILAP Revista de lepidopterología. 26–26.

11.

Linklater, Denver P., Artūras Vailionis, Meguya Ryu, et al.. (2023). Structure and Optical Anisotropy of Spider Scales and Silk: The Use of Chromaticity and Azimuth Colors to Optically Characterize Complex Biological Structures. Nanomaterials. 13(12). 1894–1894. 3 indexed citations

12.

Smith, Daniel, Meguya Ryu, Soon Hock Ng, et al.. (2023). Four-Polarisation Camera for Anisotropy Mapping at Three Orientations: Micro-Grain of Olivine. Coatings. 13(9). 1640–1640.

13.

Maksimovic, Jovan, Haoran Mu, Daniel Smith, et al.. (2023). Si-Cr Nano-Alloys Fabricated by Direct Femtosecond Laser Writing. Materials. 16(5). 1917–1917. 4 indexed citations

14.

Praveen, P., Daniel Smith, Tauno Kahro, et al.. (2022). Deep Deconvolution of Object Information Modulated by a Refractive Lens Using Lucy-Richardson-Rosen Algorithm. Photonics. 9(9). 625–625. 24 indexed citations

15.

Li, Zhen‐Ze, Yi‐Shi Xu, Lin Wang, et al.. (2022). Nanoscale Printing of Indium-Tin-Oxide by Femtosecond Laser Pulses. Nanomaterials. 12(22). 4092–4092. 3 indexed citations

16.

Ivanova, Elena P., Denver P. Linklater, Arturo Aburto‐Medina, et al.. (2021). Antifungal versus antibacterial defence of insect wings. Journal of Colloid and Interface Science. 603. 886–897. 39 indexed citations

17.

Huang, Hsin‐Hui, Takeshi Nagashima, Tetsu Yonezawa, et al.. (2020). Giant Enhancement of THz Wave Emission under Double-Pulse Excitation of Thin Water Flow. Applied Sciences. 10(6). 2031–2031. 12 indexed citations

18.

Han, Fei, Yang Liu, Fushan Li, et al.. (2019). Self-assembly of coordination polymers on plasmonic surfaces for computer vision decodable, unclonable and colorful security labels. Journal of Materials Chemistry C. 7(42). 13040–13046. 58 indexed citations

19.

Hou, Qicheng, Askhat N. Jumabekov, Wei Li, et al.. (2018). Back-contact perovskite solar cells with honeycomb-like charge collecting electrodes. Nano Energy. 50. 710–716. 53 indexed citations

20.

Ng, Soon Hock, Amelia C. Y. Liu, Ye Zhu, et al.. (2017). Plasmonic Nanolenses: Electrostatic Self-Assembly of Hierarchical Nanoparticle Trimers and Their Response to Optical and Electron Beam Stimuli. ACS Nano. 11(2). 1604–1612. 40 indexed citations

Rankless uses publication and citation data sourced from OpenAlex, an open and comprehensive bibliographic database. While OpenAlex provides broad and valuable coverage of the global research landscape, it—like all bibliographic datasets—has inherent limitations. These include incomplete records, variations in author disambiguation, differences in journal indexing, and delays in data updates. As a result, some metrics and network relationships displayed in Rankless may not fully capture the entirety of a scholar's output or impact.

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