Arunmozhi Bharathi Achudhan | Computational Chemistry | Best Scholar Award

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Mr. Arunmozhi Bharathi Achudhan | Computational Chemistry |  Best Scholar Award

SRM Institute of Science and Technology, India

👨‍🎓Profiles

🧬 Academic and Research Background

Mr. Arunmozhi Bharathi Achudhan is a dynamic early-career researcher specializing in environmental genomics and microbiome analysis, currently pursuing his Ph.D. at SRM Institute of Science and Technology, Chennai, with his thesis submitted for review. His doctoral research, titled “Structural and Functional Genomic Analysis of Coal Microbiome and Machine Learning-Based Recovery of Novel Metagenome-Assembled Genomes (MAGs),” integrates next-generation sequencing (NGS) data analysis with computational biology and machine learning. Originally trained in microbiology, he has independently mastered advanced genomics techniques and computational pipelines, using over 150 workflows to deeply explore microbial communities in extreme environments.

🧪 Research Focus and Innovations

His research focuses on unculturable microbial genomes, recovering novel MAGs from coal microbiomes and evaluating their ecological and industrial significance. By analyzing structural diversity and mining functional genes, he has identified and validated novel enzymes like amidase and nitrilase through comparative structure analysis with protein crystal structures available in the Protein Data Bank. These findings carry high biotechnological potential for industrial applications. He has also developed a read-specific binning strategy for improved MAG reconstruction, now filed as a patent, which addresses limitations in existing metagenomics workflows.

💻 Technical and Computational Skills

Mr. Arunmozhi is adept at working in Linux environments and cloud platforms like AWS. He is highly skilled in coding with Python, R, and Perl, and proficient in setting up automated workflows using Snakemake and Conda. His experience includes using powerful metagenomic and proteomic analysis pipelines such as metaWRAP, MuDoGer, SqueezeMeta, Traitar, GTDB-tk, Prokka, Prodigal, AlphaFold, and Gromacs. He also utilizes AutoDockVina, PyMOL, and Schrödinger Suite for molecular docking and structure analysis. His strong command over bioinformatics tools bridges the gap between raw sequencing data and functional biological insights.

🧫 Laboratory Training and Teaching

In addition to his computational expertise, he has received formal training in Microbiology and Molecular Biology techniques, including GLP, and has instructed undergraduate laboratory courses in these areas. He also taught Computational Biology and delivered academic training in research methods, APA formatting, SPSS, and Sigma Plot, equipping students with both theoretical knowledge and practical scientific skills.

🎓 Education and Early Scientific Engagement

Mr. Arunmozhi holds a Master’s degree in Applied Microbiology and a Bachelor’s degree in Microbiology from Madras Christian College, where he also completed a Postgraduate Diploma in Medical Laboratory Technology. His postgraduate research included the molecular characterization of β-agarase from Sphingomonas paucimobilis, and he actively participated in international and national conferences, presenting research on larvicidal activity, microbial virulence, and antimicrobial agents.

🌍 Broader Contributions to Microbiome Science

His independent project on the Indian healthy human gut microbiome involved shotgun metagenomic analysis of 110 samples, where he employed language-based machine learning to identify hidden probiotic genomes. This study provided new insights into unculturable probiotic microbes and showcased how integrating metagenomics with machine learning can revolutionize microbiome research and gut health diagnostics.

🏅 Awards and Recognition

His academic contributions have been recognized through multiple oral presentation awards, including the Best Oral Presentation at the International Conference on Advances and Applications of Biotechnology (2024), and the Young Scientist Award at the International Conference on Innovation in Science and Technology for Sustainable Development (2023). He has also presented his work at several national and international platforms, including the National Conference on Structural Biology and Drug Discovery, and New Horizons in Bioengineering, among others.

🧠 Innovation and Intellectual Property

Mr. Arunmozhi is an innovator in the domain of metagenomic genome reconstruction. His patented approach, A Read-Specific Binning Strategy for the Recovery of Unculturable MAGs, improves the reliability and efficiency of genome assembly from complex microbial communities. This contribution represents a significant advancement in bioinformatics methodology, with applications across environmental microbiology, health, and industrial biotechnology.

🔮 Future Contributions and Vision

With a multidisciplinary skill set spanning microbiology, computational genomics, structural biology, and AI-driven analysis, Mr. Arunmozhi Bharathi Achudhan is poised to make impactful contributions to sustainable biotechnology, precision microbiome therapeutics, and enzyme discovery. He envisions continuing his journey in postdoctoral research, focused on unraveling complex microbial systems and translating genomic discoveries into real-world applications that benefit health and the environment.

📖Notable Publications

  1. A review on applications of β-glucosidase in food, brewery, pharmaceutical and cosmetic industries
    Contributors: P. Kannan, A.B. Achudhan, A. Gupta, L.M. Saleena
    Journal: Carbohydrate Research, 530, 108855
    Year: 2023

  2. Functional metagenomics uncovers nitrile-hydrolysing enzymes in a coal metagenome
    Contributors: A.B. Achudhan, P. Kannan, L.M. Saleena
    Journal: Frontiers in Molecular Biosciences, 10, 1123902
    Year: 2023

  3. A Review of web-based metagenomics platforms for analysing next-generation sequence data
    Contributors: A.B. Achudhan, P. Kannan, A. Gupta, L.M. Saleena
    Journal: Biochemical Genetics, 62(2), 621–632
    Year: 2024

  4. CRISPR detection in metagenome-assembled genomes (MAGs) of coal mine
    Contributors: A.B. Achudhan, P. Kannan, L.M. Saleena
    Journal: Functional & Integrative Genomics, 23(2), 122
    Year: 2023

Rajkumar Sokkalingam | Physical Chemistry | Best Researcher Award

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Dr. Rajkumar Sokkalingam | Physical Chemistry | Best Researcher Award

Bharathidasan University, India

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Rajkumar Sokkalingam began his academic journey with a Bachelor’s degree in Physics from National College (Autonomous), Tiruchirappalli. He then pursued a Postgraduate Diploma in Scientific Interfacing at Bishop Heber College (Autonomous), Tiruchirappalli, where he specialized in advanced scientific interfacing. He continued his studies at the same institution with a Master’s degree in Physics. Currently, he has submitted his Ph.D. thesis at Bharathidasan University, focusing on high-pressure investigations of rare-earth intermetallic compounds, specifically exploring the interplay of charge density waves and magnetic ordering in Sm₂Ru₃Ge₅, GdNiC₂, and NdNiC₂. His academic progression reflects a steady and determined path toward advanced experimental condensed matter research.

👨‍🔬 Professional Endeavors

Dr. Rajkumar has actively participated in several prestigious national-level research training programs and scientific platforms. These include the Indian Nanoelectronics User Program at the Indian Institute of Science, Bangalore, and the Synergistic Training Program Utilizing the Scientific and Technological Infrastructure conducted by the University of Kerala. His involvement in a summer training programme at Bishop Heber College further highlights his commitment to continuous academic development. His postgraduate research works demonstrate a blend of theoretical understanding and technical execution, including a study on separability criteria using symmetric informationally complete measurements and a traffic signal controller developed through LabVIEW programming.

🔬 Contributions and Research Focus

Specializing in condensed matter physics, Dr. Rajkumar’s research interests lie in strongly correlated electron systems and energy materials. His doctoral research explores how rare-earth intermetallic compounds behave under high-pressure conditions, particularly examining electronic phase transitions involving charge density waves and magnetism. His earlier academic work also showcases a strong grasp of quantum information science and embedded system design, making his expertise relevant to both fundamental physics and technological applications.

🌍 Impact and Influence

Dr. Rajkumar’s impact within the research community is visible through his role as a peer reviewer for multiple high-impact international journals under Elsevier, including the Journal of Molecular Structure, Environmental Research, the Journal of the Taiwan Institute of Chemical Engineers, and Fuel. These positions indicate his growing influence and scientific credibility in material science, applied physics, and chemical engineering research circles. His participation in elite research training initiatives further enhances his reputation as an emerging expert in his field.

📚 Academic Citations and Publications

With his Ph.D. thesis submitted, Dr. Rajkumar is poised to contribute significantly to academic literature in the areas of high-pressure physics, quantum materials, and correlated systems. His forthcoming publications are expected to provide deeper insights into material behavior under extreme conditions, reinforcing his position as a promising researcher with a strong foundation in both experimental techniques and theoretical modeling.

🛠️ Technical Skills and Instrumentation Expertise

Dr. Rajkumar possesses hands-on experience with several advanced research instruments essential for modern materials science. These include cryogen-free CCR-VTI systems, X-ray diffractometers, shock tube setups, high-temperature furnaces, and piston cylinder pressure cells capable of high-pressure resistivity measurements. In addition, he is proficient in software tools such as GSAS II for Rietveld refinement, Fit2D for data reduction, LabVIEW for instrument control and embedded system design, MATLAB for numerical computation, Origin for data analysis and graphing, and LaTeX for professional documentation and publication.

🧑‍🏫 Teaching Experience and Mentorship

In addition to his research, Dr. Rajkumar has actively supported academic instruction by assisting in laboratory courses and mentoring undergraduate students. His ability to integrate theory with practice, especially in experimental setups and data interpretation, allows him to guide students effectively and foster a deeper understanding of physics.

🌟 Legacy and Future Contributions

Dr. Rajkumar is a dedicated and forward-thinking researcher whose interdisciplinary skill set equips him to contribute meaningfully to the future of condensed matter and quantum materials research. With a strong academic base, growing publication record, and active engagement in national scientific programs, he is well-positioned to drive innovation in energy materials, magnetism, and high-pressure science. His future contributions are expected to have a lasting impact on both research and education in physical sciences.

📖Notable Publications

  • Investigation of exchange bias and magnetoresistance in the Si substituted Ni-Mn-In ribbon alloys
    Authors: P. Sivaprakash, S.E. Muthu, J.J. Infanta, S. Rajkumar, I. Kim, S. Arumugam
    Journal: Materials Science and Engineering: B
    Year: 2022

  • Structural and vibrational properties of cage-type Sc₅Ru₆Sn₁₈ superconductor under pressure using synchrotron X-ray diffraction and Raman spectroscopy
    Authors: M. Sundaramoorthy, B. Joseph, G. Lingannan, P.K. Mondal, R. Sokkalingam, et al.
    Journal: Journal of Alloys and Compounds
    Year: 2024

  • Structure, morphology, and magnetic properties of Fe microparticles as impact on shock waves
    Authors: R. Jagadeesh, S. Rajkumar, S. Arumugam, M. Kannan
    Journal: Journal of Magnetism and Magnetic Materials
    Year: 2023

  • Evidence of structural modulations induced by a charge density wave transition in orthorhombic Sm₂Ru₃Ge₅
    Authors: R. Sokkalingam, G. Lingannan, M. Sundaramoorthy, C.S. Lue, C.N. Kuo, et al.
    Journal: Solid State Communications
    Year: 2023

  • Chemical Pressure-Induced enhancement of electrochemical performance in Ni₁₋ₓCuₓTe₂ (x = 0 and 0.10) layered compounds
    Authors: R. Sokkalingam, M. Krishnan, J.S.K. Pitchai, S. Periyasamy, A.K. Bojarajan, et al.
    Journal: Electrochemistry Communications
    Year: 2025

 

Wolfgang Quapp | Theoretical Chemistry | Best Researcher Award

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Dr. Wolfgang Quapp | Theoretical Chemistry | Best Researcher Award

Leipzig University, Germany

👨‍🎓Profiles

🎓 Early Academic Pursuits

He was born on August 23, 1947, in Waltersdorf near Greiz in Thüringen, Germany. His academic journey began in 1966 at the Universität Leipzig, where he pursued a rigorous course in mathematics, culminating in 1973. His doctoral work, completed in 1982, focused on the singular initial value problem of the Euler-Poisson-Darboux equation, investigating the continuity of solution operators and their mathematical properties—a topic reflecting a deep engagement with applied mathematical physics.

🧪 Professional Endeavors

Dr. Quapp’s professional career spanned nearly four decades at Universität Leipzig, where he served from 1973 until his retirement in 2012. Despite a temporary hiatus due to an 18-month military service between 1973 and 1975, he remained an integral figure in Leipzig’s academic and research landscape. His career included international academic collaborations, including guest positions at prestigious institutions such as VIK Dubna near Moscow and the University of Leningrad under Prof. Dr. A.A. Kiselev, as well as with Prof. Dr. M. Winnewisser in Gießen.

🔬 Contributions and Research Focus

Dr. Quapp’s research is renowned for bridging mathematics and theoretical chemistry. His work delves into mathematical methods in theoretical chemistry, quantum chemistry, and molecular physics. A significant focus has been the analysis of potential energy surfaces, valley-ridge inflection points, and reaction path bifurcations—critical to understanding molecular mechanisms and chemical reactions. Since 2010, he has collaborated extensively with Prof. Dr. J.M. Bofill in Barcelona, contributing to the intersection of chemical reaction theory and differential geometry.

🌍 Impact and Influence

By 2024, Dr. Quapp had authored over 120 scientific publications, presented 75 talks or posters, and conducted 190 peer reviews for 70 esteemed journals, underlining his influence as both a thought leader and a dedicated academic community contributor. His insights have shaped modern understanding in computational chemistry and mathematical modeling of complex chemical systems.

📚 Academic Cites and Recognition

Dr. Quapp is a respected member of several scholarly bodies, including the Leibniz-Sozietät Berlin, the Deutsche Mathematiker-Vereinigung, the Deutsche Bunsengesellschaft für Physikalische Chemie, and the Ostwald-Gesellschaft. These memberships reflect his stature in both the mathematical and physical chemistry communities. His works are widely cited, and his academic website catalogues his prolific output: List of Activities.

🧰 Technical Skills

Possessing strong analytical and computational skills, Dr. Quapp has contributed to solving nonlinear partial differential equations, the geometric theory of dynamical systems, and computational modeling in chemistry. His ability to apply high-level mathematical techniques to chemical problems highlights his interdisciplinary mastery.

👨‍🏫 Teaching Experience

During his tenure at Universität Leipzig, Dr. Quapp was not only a researcher but also a mentor and educator, guiding generations of students in the complex interplay between mathematics and chemistry. His teaching helped bridge disciplinary boundaries and inspire future scholars to pursue rigorous theoretical investigations.

🏆 Legacy and Future Contributions

Though formally retired since 2012, Dr. Quapp continues to collaborate internationally and publish influential work. His legacy is one of cross-disciplinary innovation, scholarly rigor, and mentorship. His ongoing collaboration with researchers like Prof. Bofill ensures that his work will continue to influence the fields of quantum chemistry and mathematical modeling for years to come.

📖Notable Publications

Comment to: “Topology of molecular deformations induces triphasic catch bonding in selectin–ligand bonds”
Authors: W Quapp, J.M. Bofill
Journal: bioRxiv, Preprint ID 2024.08.21.608529
Year: 2024

Shaping Reactions: The Exciting World of Mechanochemistry and Molecular Interactions
Authors: W Quapp, J.M. Bofill
Year: 2024

Altering Selectivity in the Tug-of-War Mechanism by Mechanochemistry – with an Explanation of Catch Bond Behavior
Authors: W Quapp, J.M. Bofill
Journal: Foundations, Volume 1, Pages 1–26
Year: 2023

An algorithm to find the optimal oriented external electrostatic field for annihilating a reaction barrier in a polarizable molecular system
Authors: J.M. Bofill i Villà, M. Severi, W. Quapp, J. Ribas Ariño, I.P.R. Moreira, and others
Journal: Journal of Chemical Physics, Volume 159, Pages 1–19
Year: 2023

Krittiya Sreebunpeng | Physical Chemistry | Best Researcher Award

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Assist. Prof. Dr. Krittiya Sreebunpeng | Physical Chemistry | Best Researcher Award

Chandrakasem Rajabhat University Thailand

👨‍🎓Profiles

🎓 Early Academic Pursuits

Dr. Krittiya Sreebunpeng laid a solid foundation in physics through her studies at King Mongkut’s University of Technology Thonburi (KMUTT). She earned her B.S. in Physics in 2009 with a project on the calibration of radiating-time digital machines for radiation diagnosis. She went on to complete her M.S. in Physics in 2011 with a stellar GPA of 3.66, investigating the optical and scintillation properties of Pr³⁺-doped Lu₃Al₅O₁₂ crystals. Her passion for materials science culminated in a Ph.D. in Physics (2015), where her thesis focused on the luminescence and scintillation behavior of Pr³⁺-doped Lu₃Al₅O₁₂ and Y₃Al₅O₁₂ single crystal scintillators.

🔬 Research Focus and Contributions

Dr. Sreebunpeng’s core research revolves around scintillation materials, radiation detectors, crystal growth, and transparent ceramics, with extensions into nuclear safety and physics education. Her contributions to scintillator development have significantly advanced materials used in radiation detection. Two of her key completed research projects include:

  1. Photoluminescence and scintillation properties of K⁺, Pr- and Mg²⁺, Pr-doped garnet crystals (2019, funded by the National Research Council of Thailand).

  2. Fabrication of Mg²⁺ co-doped Ce:(Lu₂Y)(Al₅₋ₓGaₓ)O₁₂ ceramic scintillators for fast timing applications, supported by the Ministry of Higher Education, Science, Research, and Innovation.

🌏 Global Exposure and Training

Dr. Sreebunpeng’s academic journey includes international research stints and specialized technical training. She conducted summer research at the Shanghai Institute of Optics and Fine Mechanics (SIOM), China in 2018–2019. In 2015, she enhanced her expertise with research training at the National Centre for Nuclear Research in Poland and the Institute of Physics in Prague, Czech Republic. Her participation in radiation safety and research communication workshops reflects her commitment to well-rounded scientific practice.

👩‍🏫 Teaching Experience and Academic Roles

Dr. Sreebunpeng currently serves as a lecturer in Physics at the Faculty of Science, Chandrakasem Rajabhat University since 2016. Prior to that, she was a teaching assistant at KMUTT (2009–2015) and briefly taught general physics at Muban Chombueng Rajabhat University. Her dedication to pedagogy is reflected in her continual engagement with training programs on science teaching methods, research writing techniques, and technology tools such as EndNote and XRD analysis.

🛠️ Technical Skills and Experimental Expertise

She possesses robust technical expertise in scintillator material synthesis, optical characterization, and radiation detector analysis. Her hands-on skills cover crystal growth, transparent ceramics, photoluminescence spectroscopy, X-ray diffraction (XRD), and radiation protection protocols. These proficiencies are complemented by her training in mind-mapping techniques, scientific writing, and academic communication.

🏅 Impact, Recognition, and Influence

Dr. Sreebunpeng’s research has contributed to the development of advanced scintillation materials essential in medical imaging and nuclear safety. She was selected for Thailand’s “New Generation Researcher” program and has also played a crucial role as a local trainer for the Institute for the Promotion of Teaching Science and Technology (IPST). Her involvement in the academic and research communities demonstrates her growing influence in both applied and educational physics.

🌱 Legacy and Future Directions

Looking ahead, Dr. Sreebunpeng is poised to deepen her impact in nuclear materials science and radiation detection technologies, while continuing her dedication to science education and public awareness. Her multidisciplinary approach—spanning research, teaching, and training—places her as a vital contributor to Thailand’s scientific advancement, especially in the realms of radiation safety and detector innovation.

📖Notable Publications

Temperature-dependent characteristics, light yield nonproportionality, and intrinsic energy resolution of Ce,Mg:Lu₂Y(Al,Ga)₅O₁₂ garnet ceramics
Authors: K. Sreebunpeng, Wa. Chewpraditkul, N. Pattanaboonmee, W. Chewpraditkul, R. Kucerkova, V. Babin, Y. Wang, D. Zhu, C. Hu, M. Nikl, J. Li
Journal: Radiation Physics and Chemistry
Year: 2025

Effect of Ga³⁺ content on the luminous properties of Ce³⁺-doped Lu₂YGaxAl₅₋ₓO₁₂ phosphor ceramics for potential lighting application
Authors: Y. Wang, Z. Cheng, J. Ye, D. Zhu, C. Hu, Z. Zhou, T. Li, Wa. Chewpraditkul, K. Sreebunpeng, W. Chewpraditkul, J. Li
Journal: Journal of Luminescence
Year: 2025

Luminescence and scintillation properties of fast Ce,Mg:Lu₂YGaxAl₅₋ₓO₁₂ ceramic scintillators fabricated from co-precipitated powders
Authors: K. Sreebunpeng, Wa. Chewpraditkul, W. Chewpraditkul, R. Kucerkova, A. Beitlerova, M. Nikl, T. Szczesniak, M. Grodzixja-Kobylka, D. Zhu, C. Hu, J. Li
Journal: Optical Materials
Year: 2024

Luminescence and light yield of Ce³⁺-doped (60−x)SiO₂–xBaF₂–20Al₂O₃–20Gd₂O₃ scintillation glasses: The effect of BaF₂ admixture
Authors: P. Lertloypanyachai, Wa. Chewpraditkul, N. Pattanaboonmee, N. Yawai, K. Sreebunpeng, T. Nimphaya, A. Beitlerova, M. Nikl, W. Chewpraditkul
Journal: Optik
Year: 2023

Optical, luminescence and scintillation properties of Mg²⁺-codoped (Lu,Y)₃Al₂Ga₃O₁₂:Pr garnet crystals: The effect of Y
Authors: K. Sreebunpeng, Wa. Chewpraditkul, W. Chewpraditkul, A. Yoshikawa, M.E. Witkowski, W. Drozdowski, M. Nikl
Journal: [Journal name incomplete]
Year: 2022

Shufeng Pang | Physical Chemistry | Best Researcher Award

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Prof. Shufeng Pang | Physical Chemistry | Best Researcher Award

Beijing Institute of Technology, China

👨‍🎓Profiles

🎓 Early Academic Pursuits

Prof. Shufeng Pang began his academic journey with a Ph.D. in Chemistry from Nanjing University (1998–2000), where he conducted spectroscopic studies on Langmuir-Blodgett (LB) film structures. His early work laid the foundation for a multidisciplinary research career combining surface science, colloidal chemistry, and environmental studies.

🧪 Professional Endeavors

After completing his Ph.D., he pursued postdoctoral research at the Institute of Chemistry, Chinese Academy of Sciences (2001–2003), focusing on structural investigations of colloidal systems. He then expanded his research internationally as a Research Associate at the Tokyo University of Science, Japan (2003–2005), working on surface modification and self-assembly behavior of gold nanoparticles. Since 2005, he has been serving as an Associate Professor at the Beijing Institute of Technology, where his recent research centers on the physical and chemical properties of atmospheric aerosols.

🔬 Contributions and Research Focus

Prof. Pang has made notable contributions in nanoparticle synthesis, interfacial modification, and atmospheric aerosol chemistry. He developed asymmetric surface-modified gold nanoparticles through interfacial techniques and explored their aggregation and ordered assembly. His studies on aerosol systems revealed critical insights into the hygroscopicity of inorganic/organic salts, intraparticle chemical processes, and gas-particle interactions. One of his most significant findings was the discovery of a humidification-induced phase transition in mixed aerosols containing polyhydroxy organic acids and inorganic salts, which offered a mechanistic explanation for component redistribution in atmospheric particles.

🧠 Research Projects and Collaborations

As Principal Investigator, Prof. Pang has led three NSFC-funded research projects. Project No. 20603002 focused on the synthesis and self-assembly of Janus nanoparticles. Project No. 21373026 explored the in-situ observation of new particle formation and aerosol growth using FTIR spectroscopy. Project No. 91644101 investigated the burst and growth of new particles as influenced by ambient relative humidity through FTIR techniques. He collaborates with Prof. Yunhong Zhang in conducting advanced spectroscopic studies on aerosols.

🌍 Impact and Influence

Prof. Pang’s work has important implications for understanding urban air pollution and atmospheric chemistry. His investigation into copper-catalyzed SO₂ oxidation by NO₂ within aerosols and the resulting sulfate formation has contributed to the field of environmental science. His studies aid in pollution modeling, aerosol transformation mechanisms, and the evaluation of climate-related aerosol effects.

📚 Academic Citations and Recognition

Although specific citation counts were not detailed, Prof. Pang’s research—particularly in aerosol spectroscopy and nanomaterials—has gained significant traction in the scientific community, especially among those focused on air quality, environmental chemistry, and nanoparticle behavior.

🛠️ Technical Skills

He possesses strong technical expertise in FTIR spectroscopy, colloidal and interfacial chemistry, Langmuir-Blodgett film techniques, gold nanoparticle synthesis, and the structural characterization of aerosols. His proficiency in in-situ analysis makes him a leader in observing real-time chemical processes in atmospheric systems.

👨‍🏫 Teaching and Mentorship

At Beijing Institute of Technology, Prof. Pang has consistently merged research with education, mentoring undergraduate and graduate students in physical chemistry, spectroscopy, and atmospheric research. His practical guidance and academic supervision have contributed to the development of many young scientists.

🌟 Legacy and Future Contributions

Prof. Pang aims to continue advancing the understanding of aerosol dynamics and their impact on climate and air quality. His future research will likely emphasize interdisciplinary approaches to atmospheric chemistry and nanoscience, making vital contributions to environmental policy, sustainable development, and academic innovation. His career reflects a dedication to both fundamental research and applied science, positioning him as a distinguished figure in modern physical and environmental chemistry.

📖Notable Publications

Sulfate formation through copper-catalyzed SO2 oxidation by NO2 at aerosol surfaces

  • Authors: P. Liu, Y. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: npj Climate and Atmospheric Science

  • Year: 2025

Hydrogel network formation triggers atypical hygroscopic behavior in atmospheric aerosols

  • Authors: F. Dong, Q. Huang, S. Pang, Y. Zhang

  • Journal: Science of the Total Environment

  • Year: 2024

The interplay between aqueous replacement reaction and the phase state of internally mixed organic/ammonium aerosols

  • Authors: H. Yang, F. Dong, L. Xia, S. Pang, Y. Zhang

  • Journal: Atmospheric Chemistry and Physics

  • Year: 2024

Rethinking urban haze formation: Atmospheric sulfite conversion rate scales with aerosol surface area, not volume

  • Authors: L. Li, P. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: One Earth

  • Year: 2024

Compositional evolution for mixed aerosols containing gluconic acid and typical nitrate and the effect of multiply factors on hygroscopicity

  • Authors: Y. Zhu, S. Pang, Y. Zhang

  • Journal: Journal of Environmental Sciences

  • Year: 2024

Single Droplet Tweezer Revealing the Reaction Mechanism of Mn(II)-Catalyzed SO2 Oxidation

  • Authors: X. Cao, Y. Liu, Q. Huang, Y. Zhang, M. Ge

  • Journal: Environmental Science and Technology

  • Year: 2024