Sathish Panneer Selvam | Theoretical Advances | Best Scholar Award

Published on by High Energy Physics

Dr. Sathish Panneer Selvam | Theoretical Advances | Best Scholar Award

Assistant Professor at Gachon university | South Korea

Dr. Sathish Panneer Selvam is a dynamic Assistant Professor at Gachon University, South Korea, specializing in electrochemical biosensors, nanomaterials, and density functional theory (DFT). With a strong foundation in experimental chemistry and computational modeling, Dr. Selvam’s interdisciplinary research bridges the gap between biomedical diagnostics and renewable energy catalysis, contributing significantly to next-generation sensor technologies.

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🎓 Early Academic Pursuits

Dr. Selvam began his academic journey with a Master’s degree in Electrochemical Sensing and Water Splitting under Prof. Kyusik Yun, where he focused on DNA-based nanomaterials and self-assembled sensors. He pursued his PhD (2020–2024) under Prof. Sungbo Cho, contributing to sensor development for disease diagnostics and reaction mechanism analysis via DFT. This formative period laid the groundwork for his future breakthroughs in smart diagnostics.

💼 Professional Endeavors

Starting as a Quality Control Executive at Biocon Biopharmaceutical Ltd., Dr. Selvam transitioned seamlessly into academia. His current role as an Assistant Professor (2024–2025) at Gachon University involves leading advanced biosensing projects, such as cancer diagnostics, enzyme activity detection, and nanocomposite development. His hands-on expertise spans fabrication, characterization, and computational modeling.

🔬 Contributions and Research Focus

Dr. Selvam’s research is distinguished by its interdisciplinary depth and real-world relevance. He has designed single-atom catalyst biosensors for detecting pancreatic and breast cancer. Additionally, he has explored molecularly imprinted polymers for biomarker detection and utilized DFT and molecular dynamics to simulate reaction pathways. His development of triboelectric nanogenerators for self-powered bacterial detection reflects his ability to address critical challenges in medical diagnostics, environmental monitoring, and energy applications.

🌍 Impact and Influence

Dr. Selvam has authored 16+ peer-reviewed publications, many in high-impact journals such as Chemical Engineering Journal, Small Methods, and Biosensors and Bioelectronics, with impact factors ranging from 8 to 23. His contributions to cancer biosensing, H2 evolution, and COVID-19 detection have attracted international collaborations with researchers from UK, France, and India, solidifying his global influence.

📊 Academic Cites & Recognition

Dr. Selvam’s work is increasingly cited by peers in the fields of biosensors, nanotechnology, and theoretical chemistry. With several publications already gaining traction in the academic community, he is on track for significant citation growth and thought leadership in applied quantum chemistry and nanomedicine.

🧪 Research Skills

Dr. Selvam demonstrates a robust technical skill set that seamlessly bridges experimental techniques with computational modeling. He excels in electrochemical characterization using systems like Iviumstat, Biologics, and PARSTAT. His expertise in structural analysis includes SEM, TEM, XRD, EXAFS, and Raman spectroscopy. Additionally, he is proficient in High-Performance Liquid Chromatography (HPLC) and a variety of spectroscopic tools. On the theoretical side, he utilizes DFT simulations, molecular docking, and molecular dynamics, allowing for deep insights into complex reaction mechanisms.

🎓 Teaching Experience

As an Assistant Professor, Dr. Selvam is engaged in mentoring undergraduate and graduate students. He fosters a research-driven learning environment that encourages critical thinking, scientific writing, and interdisciplinary collaboration, essential for shaping future scientists.

🌟Patents

Dr. Selvam holds several patents, including the Chalcogenide Loaded Cobalt MOF for Patulin Mycotoxin Detection (KR Patent 10-2437215), an Electrochemical Biosensing Platform for Rheumatoid Arthritis Biomarker detection (KR Patent 10-2381031), and a Nanocomposite modified electrode for Etidronic acid detection (KR Patent 10-2475238), co-authored with Sungbo Cho and Kyusik Yun. These innovations demonstrate his expertise in biosensing, electrochemical platforms, and biomarker detection.

📘 Legacy and Future Contributions

Dr. Selvam has a strong portfolio of patents, a growing reputation in academic publishing, and a unique ability to synthesize experimental and computational insights. As a thought leader in smart biosensing and energy catalysis, his future contributions are expected to include the development of scalable diagnostic tools for global health, AI-integrated sensor platforms, and further exploration of quantum chemistry for bio-interfaces. His work promises significant advances in both healthcare and energy solutions.

Publications Top Notes

EXAFS and spectroscopic insights into Mn, Tc, and Re-doped phthalocyanines: A multifaceted DFT study of electronic and optical properties

  • Authors: Sathish Panneer Selvam, Zeeshan, Sungbo Cho
    Journal: Surfaces and Interfaces
    Year: 2025

Cerium single atom anchored silver selenide: A high-performance catalyst for hydrogen evolution reaction with ultra-low activation energy and enhanced stability

  • Authors: Sathish Panneer Selvam, Sungbo Cho
    Journal: Surfaces and Interfaces
    Year: 2024

Experimental insights and DFT analysis of metal-free DNA nanocatalyst with enhanced hydrogen evolution via phosphate-mediated proton acceptance

  • Authors: Sathish Panneer Selvam, Shanmugasundaram Kamalakannan, K. Rudharachari Maiyelvaganan, Muthuramalingam Prakash, Sivalingam Gopi, Hansa Mahajan, Kyusik Yun, Sungbo Cho
    Journal: International Journal of Hydrogen Energy
    Year: 2024

Highly Synergistic Co3+ and Pyridinic‐N‐Rich Bifunctional Electrocatalyst for Ultra‐Low Energy-Driven Effective Hydrogen Production and Urea Oxidation

  • Authors: Sathish Panneer Selvam, Sungbo Cho
    Journal: Advanced Sustainable Systems
    Year: 2022

Novel SeS2-loaded Co MOF with Au@PANI comprised electroanalytical molecularly imprinted polymer-based disposable sensor for patulin mycotoxin

  • Authors: Sathish Panneer Selvam
    Journal: Biosensors and Bioelectronics
    Year: 2021

 

Quynh Anh Thi Nguyen | Computational Methods | Best Researcher Award

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Dr. Quynh Anh Thi Nguyen | Computational Methods | Best Researcher Award

Researcher at University of Ulsan | South Korea

Quynh Anh Thi Nguyen is a doctoral researcher at the University of Ulsan (UOU), South Korea, where she is pursuing a Ph.D. in physics under the supervision of Prof. Sung Hyon “Sonny” Rhim. Her research primarily focuses on spintronics and first-principles calculations in tungsten (W) alloys. With a strong academic background, she has excelled in her field, maintaining a GPA of 4.17/4.5 during her doctoral studies and a similar academic achievement in her undergraduate studies.

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🎓 Early Academic Pursuits

Nguyen’s academic journey began at Hanoi National University of Education (HNUE), Vietnam, where she completed her Bachelor’s degree in Physics with a thesis on the melting behavior of substitution alloys under pressure. During her undergraduate years (2013-2017), she was consistently ranked as an excellent student and earned recognition in scientific conferences. Her academic foundation set the stage for her future exploration in computational physics and materials science.

💼 Professional Endeavors

Since 2017, Nguyen has been pursuing her Doctoral degree at the University of Ulsan (UOU), South Korea. Under the mentorship of Prof. Sung Hyon Rhim, her research is centered on the study of spintronics in W alloys and the magnetic properties of Heusler compounds. She has delved into critical aspects of spin Hall conductivity, orbital Hall conductivity, and magnetism, contributing to the understanding of materials used in next-generation electronic devices like spintronic sensors and memory devices.

Contributions and Research Focus 🔬

Quynh Anh’s research mainly explores the Spin Hall conductivity and orbital Hall effects in various materials, including transition metals, Heusler compounds, and tetragonal alloys. Her work on spintronics—specifically related to the spin-orbit torque efficiency of materials like β-W heterojunctions—has led to several high-impact publications. One of her major contributions is the study of the spin Hall conductivity in W-Si alloys, which has significant implications for spintronic devices and energy-efficient electronics.

Her current research includes W-N alloys, and the impact of Ti substitution on β-W, both of which are preparing for publication.

Impact and Influence 🌍

Quynh Anh’s work is making a significant impact on the field of spintronics and material physics, especially with her first-principles calculations on the properties of W alloys. By exploring magnetism and conductivity in alloys, she is contributing to the development of advanced materials with better performance in electronics and magnetic devices. Her research aids in the creation of energy-efficient technologies and high-performance electronic components, positioning her as a leading researcher in her field.

Research Skills 💻

Quynh Anh possesses a strong set of technical skills that aid her research, including expertise in software such as Photoshop, Origin, Matlab, Python, and advanced tools like VASP, Wannier90, and OpenMx for computational physics. These skills have enabled her to conduct first-principles calculations and detailed simulations, giving her a deep understanding of material properties and quantum phenomena.

Awards and Honors 🏆

Quynh Anh’s work has been widely recognized:

  • Best Poster Award at the International Conference on Magnetic and Superconducting Materials (2018) in Seoul, Korea.
  • Multiple Excellent Student awards during her undergraduate years.
  • Third Prize at the Student Conference Science Research (2017).

These honors underscore her exceptional academic performance and research contributions.

Legacy and Future Contributions 🌟

With her expertise in spintronics and material physics, Quynh Anh is set to continue making groundbreaking contributions to the field of advanced materials. Her research on spin Hall conductivity, orbital Hall effects, and magnetism will likely pave the way for future innovations in energy-efficient electronics and next-generation magnetic devices. Quynh Anh’s legacy will undoubtedly inspire future scientists to explore the untapped potentials of transition metal alloys and spintronic materials, ensuring her lasting impact in the world of physics and material science.

Publications Top Notes

Ti-alloyed β-W heterojunctions exhibiting spin-orbit torque switching at a wide operating temperature range

  • Authors: J. Lee, Q. A. T. Nguyen, D. Kim, S. H. Rhim, Y. K. Kim
    Journal: Applied Surface Science
    Year: 2025

Synergetic Modulation of Electronic Properties of Cobalt Oxide via “Tb” Single Atom for Uphill Urea and Water Electrolysis

  • Authors: S. Ajmal, A. Rasheed, W. Sheng, G. Dastgeer, Q. A. T. Nguyen, P. Wang, …
    Journal: Advanced Materials
    Year: 2025

Unlocking electrocatalytic dynamics with anti-MXene borides monolayers for nitrate reduction

  • Authors: T. H. Ho, Q. A. T. Nguyen, B. T. T. Le, S. G. Kim, W. Q. Bui
    Journal: Applied Surface Science
    Year: 2024

Spin Hall Conductivity of W100-xSix Alloys in A15 Structure: A Comprehensive Study

  • Authors: Q. A. T. Nguyen, S. H. Rhim
    Journal: Journal of Magnetics
    Year: 2024

Orbital-engineered anomalous Hall conductivity in stable full Heusler compounds: a pathway to optimized spintronics

  • Authors: Q. A. T. Nguyen, T. H. Ho, S. G. Kim, A. Kumar, V. Q. Bui
    Journal: Journal of Materials Chemistry C
    Year: 2024