Kangchun Lee | Chemistry and Materials Science | Best Researcher Award

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Kangchun Lee | Chemistry and Materials Science | Best Researcher Award

Prof Kangchun Lee, KyonggiUniversity, South Korea

Based on the information provided, Prof. Kangchun Lee appears to be a strong candidate for the Best Researcher Award due to his significant achievements and contributions in his field. Here’s a summary of why he stands out.

Publication profile

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Education and Professional Background

Prof. Kangchun Lee holds a Ph.D. in Energy Engineering from Hanyang University (2020) and a B.S. in Materials Science and Engineering from the same institution (2014). His career began as a Staff Engineer at Samsung Electronics’ Semiconductor R&D Center, where he worked from September 2020 to February 2023. He is currently an Assistant Professor in the Department of Electronic Engineering at Kyonggi University, starting in March 2023. His experience includes comprehensive work on GAA-based semiconductor processes and advanced process development for sub-3nm and sub-2nm semiconductor integration.

Academic and Professional Contributions

Prof. Lee has actively participated in various academic committees and roles, including the International Conference on Planarization/CMP Technology (ICPT) program committee, Korea CMP User Group Meeting (CMPUGM) committee, and as a Topical Advisory Panel Member for Applied Sciences. His involvement in the Early Career Scholars Program and as a Guest Editor for Applied Sciences further highlights his engagement with the academic community.

Awards and Recognition

Prof. Lee has received several prestigious awards, including the Best Paper Award in 2022 from Samsung Electronics and scholarship awards from the Korea Semiconductor Industry Association (2019) and Korea Ceramic Society (2013). These accolades underscore his impactful research and recognition within the industry.

Publications and Research Impact

Prof. Lee’s research has been widely published, with notable contributions to journals such as ECS Journal of Solid State Science and Technology, Materials Science in Semiconductor Processing, and Applied Surface Science. His work covers critical topics such as CMP performance enhancement, advanced CMP slurry compositions, and eco-friendly chemical mechanical planarization techniques. His research is highly cited, reflecting its significance and influence in the field.

Summary

Prof. Kangchun Lee’s educational background, professional experience, active academic involvement, and prestigious awards make him a compelling candidate for the Best Researcher Award. His extensive research output and contributions to semiconductor technology and materials science demonstrate his excellence and impact in his field.

Publication top notes

Tailored electronic structure of Ir in high entropy alloy for highly active and durable bi‐functional electrocatalyst for water splitting under acidic environment

Role of the oxidation state of cerium on the ceria surfaces for silicate adsorption

Fenton-like reaction between copper ions and hydrogen peroxide for high removal rate of tungsten in chemical mechanical planarization

Ce3+-enriched core–shell ceria nanoparticles for silicate adsorption

Highly reversible cycling with Dendrite-Free lithium deposition enabled by robust SEI layer with low charge transfer activation energy

Galvanic corrosion inhibition from aspect of bonding orbital theory in Cu/Ru barrier CMP

Preparation and characterization of slurry for CMP

Synergistic Effect of Mixed Particle Size on W CMP Process: Optimization Using Experimental Design

Optimizing a blend of a mixture slurry in chemical mechanical planarization for advanced semiconductor manufacturing using a posterior preference articulation approach to dual …

Suppression of Dissolution Rate via Coordination Complex in Tungsten Chemical Mechanical Planarization

Weiquan Cai | Chemistry and Materials Science | Best Researcher Award

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Weiquan Cai | Chemistry and Materials Science | Best Researcher Award

Prof Weiquan Cai, School of Chemistry and Chemical Engineering, Guangzhou University, China

Prof. Weiquan Cai: A Leading Contender for the Best Researcher Award.

Publication profile

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Academic and Professional Background

Prof. Weiquan Cai is a Distinguished Professor and Academic Leader at Guangzhou University, holding this position since 2017. He earned his BS in Chemical Technology from Wuhan Institute of Technology in 1995, an MS in Environmental Engineering from China University of Petroleum in 2002, and a PhD in Chemical Technology from the Institute of Process Engineering, Chinese Academy of Sciences in 2005. His postdoctoral research focused on Material Chemistry and Physics at Wuhan University of Technology, and he was a visiting scholar at Kent State University (2009-2010). In 2012, he joined Wuhan University of Technology as a professor in the School of Chemical Engineering.

Research and Innovations

Prof. Cai has led over 30 research projects funded by various government bodies and enterprises, including five from the National Natural Science Foundation of China and four from Guangdong Provincial Science and Technology Plan. His research includes notable industrial applications, such as a high-efficiency grease cleaning agent. He has published over 200 papers, with around 165 indexed by SCI, including nine Highly Cited Papers. His work has earned significant citations and includes over 115 national invention patents, with 60 granted. His research has led to advancements in materials and chemical engineering, evidenced by his recent publications in prominent journals like Fuel and Chemical Engineering Journal.

Books Published (ISBN)

Prof. Cai co-authored “Chemical Engineering Principles Experiment” (ISBN: 978-7-5629-3466-0), published by Wuhan University of Technology Press in 2011, alongside Guangxu Zhang and Xuanjun Wu.

Patents Published/Under Process

He holds more than 115 national invention patents, with 60 authorized, including one USA invention patent.

Recent Journal Publications

Sorptive-enhanced biogas steam reforming over Pb-modified Ni-CaO bifunctional catalysts (Fuel, 2024). Immobilization of Ni on MOF-derived CeO2 for low-temperature dry reforming of methane (Fuel, 2024). Preparation of poly (vinyl alcohol)/polydopamine/tannin acid coupling of heterogeneous advanced oxidation processes and photocatalysis (Chemical Engineering Journal, 2024).

Publication top notes

Coupling of heterogeneous advanced oxidation processes and photocatalysis in efficient degradation of tetracycline hydrochloride by Fe-based MOFs: Synergistic effect and …

Synthesis of hierarchical Ni (OH) 2 and NiO nanosheets and their adsorption kinetics and isotherms to Congo red in water

Facile synthesis of ordered mesoporous alumina and alumina-supported metal oxides with tailored adsorption and framework properties

Template-free synthesis of hierarchical spindle-like γ-Al 2 O 3 materials and their adsorption affinity towards organic and inorganic pollutants in water

Engineering Bismuth–Tin Interface in Bimetallic Aerogel with a 3D Porous Structure for Highly Selective Electrocatalytic CO2 Reduction to HCOOH

Synthesis of boehmite hollow core/shell and hollow microspheres via sodium tartrate-mediated phase transformation and their enhanced adsorption performance in water treatment

Preparation of amino-functionalized magnetic biochar with excellent adsorption performance for Cr (VI) by a mild one-step hydrothermal method from peanut hull

Rapid degradation of tetracycline hydrochloride by heterogeneous photocatalysis coupling persulfate oxidation with MIL-53 (Fe) under visible light irradiation

Preparation and properties of quaternary ammonium chitosan-g-poly (acrylic acid-co-acrylamide) superabsorbent hydrogels

 

Maria Luisa Astolfi | Chemistry and Materials Science | Best Researcher Award

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Maria Luisa Astolfi | Chemistry and Materials Science | Best Researcher Award

Dr Maria Luisa Astolfi, Sapienza University of Rome, Italy

Publication profile

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Education

In 2005, the individual graduated from Sapienza University of Rome with a Master’s degree in Chemistry, focusing on a thesis titled “New analytical procedure for the chemical characterization of suspended particulate matter in the atmosphere,” under the guidance of Prof. Enrico Cardarelli and Dr. Cinzia Perrino. They further pursued a Ph.D. in Analytical Chemistry of Real Systems at the same institution from 2005 to 2008, culminating in 2009 with a thesis on “Chemical characterization of suspended particulate matter in the atmosphere: analytical problems and studies for the identification of emission sources,” supervised by Prof. Silvia Canepari.

Appointments

Currently, from October 2020 to September 2025, they serve as an Assistant Professor RTD-A at the Department of Chemistry, Sapienza University of Rome. In addition, they hold several academic appointments, including being a substitute member of the exam committee for the Ph.D. course in Chemical Sciences at Sapienza University for the 40th cycle, and serving on various committees for research and contractual assignments at the university.

Editorial Activity

They have held several editorial roles, including serving as an invited guest editor for “Advances in Analytical Strategies to Study Cultural Heritage Samples, 2nd Edition” in Molecules, and guest editor for several special issues in journals like Frontiers in Analytical Science and Analytica, focusing on topics like contaminants in environmental matrices and green analytical methods.

Teaching Experience

Since 2020, they have been teaching various courses at Sapienza University of Rome, including “Equilibri Chimici e Tecniche Strumentali di Analisi” and “Chimica Analitica III,” contributing significantly to the curriculum in the Department of Chemistry. They were also an invited teacher in 2021 for a specialized course on monitoring and source identification methods for atmospheric particulate matter.

Research Centre Affiliations and Society Memberships

They have been affiliated with the Research Centre for Applied Sciences for the Protection of the Environment and Cultural Heritage (CIABC) at Sapienza University of Rome since June 2021. They are also a member of the Italian Chemical Society and the Italian Aerosol Society since 2020.

Research Activities

Their research primarily focuses on developing and optimizing analytical methods for the elemental analysis of complex matrices, including environmental, biological, and food samples. They emphasize the importance of efficient sample preparation methods and apply these analytical techniques to environmental monitoring and biomonitoring, particularly assessing the impact of chemical contaminants on human health and environmental quality.

Summary of Scientific Achievements

The individual has a substantial body of work, with 85 publications, including 78 articles, a review, four conference papers, a book chapter, and an editorial. Their work has spanned from 2006 to 2024, and they have also contributed to patents, proceedings, and books.

Publication top notes

Agro-industrial wastes as potential carriers for enzyme immobilization: A review

Characterisation of the traffic sources of PM through size-segregated sampling, sequential leaching and ICP analysis

Comparative elemental analysis of dairy milk and plant-based milk alternatives

Seasonal variations in the chemical composition of particulate matter: a case study in the Po Valley. Part II: concentration and solubility of micro-and trace-elements

Enhancement of source traceability of atmospheric PM by elemental chemical fractionation

Determination of soluble ions and elements in ambient air suspended particulate matter: inter-technique comparison of XRF, IC and ICP for sample-by-sample quality control

Characterization of Italian multifloral honeys on the basis of their mineral content and some typical quality parameters

A prophylactic multi-strain probiotic treatment to reduce the absorption of toxic elements: In-vitro study and biomonitoring of breast milk and infant stools

Efficiency evaluation of food waste materials for the removal of metals and metalloids from complex multi-element solutions

Optimization and validation of a fast digestion method for the determination of major and trace elements in breast milk by ICP-MS

Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

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Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

Dr Tamara Erceg, Faculty of Technology Novi Sad, Serbia

Based on Dr. Tamara Erceg’s extensive experience, achievements, and contributions to the field of polymer science, particularly in green chemistry and biodegradable materials, she appears to be a suitable candidate for the Hypothesis Achievement Award. Here are the key points supporting her candidacy.

Publication profile

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  • Academic Excellence: Dr. Erceg completed her Ph.D. in Polymer Science with the highest average note of 10.00. Her research focuses on the structuring of polymer networks, highlighting her expertise and innovation in the field.
  • Professional Experience: She has been involved in educational and pedagogical work at the Faculty of Technology Novi Sad since 2016, and has been a research associate there, demonstrating her commitment to advancing science and education.
  • Research Contributions: Dr. Erceg has numerous publications in high-impact journals (Q1) covering a wide range of topics, including biodegradable packaging, polymer nanocomposites, and sustainable materials. Her work on active coatings for food packaging and the development of biodegradable cellulose acetate-based films showcases her dedication to solving real-world problems through scientific research.
  • Leadership and Collaboration: She has held significant roles in various projects, including being a project manager for international collaborations and projects funded by the Ministry of Science, Innovation, and Technological Development of the Republic of Serbia. Her involvement in multidisciplinary projects and international conferences highlights her leadership and collaborative skills.
  • Impact and Innovation: Dr. Erceg’s work on biodegradable materials and green chemistry principles aligns with current global priorities on sustainability and environmental protection. Her contributions to the development of eco-friendly packaging solutions and her research on the optimization of biodegradable bags underscore her innovative approach to addressing pressing environmental issues.

  • Research focus

  • Tamara Erceg’s research focuses on the development and characterization of sustainable, eco-friendly materials and active packaging solutions. Her work includes studies on pullulan-based edible coatings to extend cheese shelf life, antioxidant recovery using cloud point extraction, hydrogels, and biodegradable cellulose acetate films. She explores the incorporation of essential oils for antimicrobial packaging and analyzes the thermal stability of bio-based urea-formaldehyde resins. Erceg’s contributions aim to improve food preservation, enhance material properties, and reduce environmental impact through innovative biopolymer applications. 🌿🧀🛡️📦🔬

  • Publication top notes

  • Comparison of the Properties of Pullulan-Based Active Edible Coatings Implemented for Improving Sliced Cheese Shelf Life

  • Updating the Status quo on the Eco-Friendly Approach for Antioxidants Recovered from Plant Matrices Using Cloud Point Extraction

  • Architecture of Hydrogels

  • Hydrolytic and thermal stability of urea-formaldehyde resins based on tannin and betaine bio-fillers

  • Insight on Incorporation of Essential Oils as Antimicrobial Substances in Biopolymer-Based Active Packaging

Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

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Tamara Erceg | Chemistry and Materials Science | Hypothesis Achievement Award

Dr Tamara Erceg, Faculty of Technology Novi Sad, Serbia

Dr. Tamara Erceg is a Research Associate at the Faculty of Technology Novi Sad, University of Novi Sad, with a Ph.D. in Polymer Science. Her research focuses on polymer materials, including their design, synthesis, and recycling, emphasizing green chemistry and biodegradable packaging. Dr. Erceg is involved in educational activities, teaching courses in synthetic polymer chemistry and polymer processing. She has published extensively on biobased materials and active packaging, contributing to high-impact journals. Additionally, she reviews papers for top-tier journals and is engaged in various academic and scientific committees. 🌿🔬📚

Publication profile

Scopus

Education

Dr. Tamara Erceg holds a Ph.D. in Polymer Science from the University of Novi Sad, completed in 2019 with an impressive average grade of 10.00. Their doctoral thesis focused on “Structuring of Polymer Networks Based on Acrylamide and Acrylic Acid.” Prior to this, Dr. [Name] earned both an MSc and a Bachelor’s degree in Pharmaceutical Engineering from the same university, graduating with an average of 9.70. Their Master’s thesis explored “The Properties of Water-in-Oil Emulsions Stabilized by Polyglycerol Polyester Emulsifiers.” 🧪🎓

Experience

Since 2013, Tamara Erceg has been delivering private lectures on Probability and Statistics, and Chemistry 📚. Since 2016, they have been actively involved in educational and pedagogical work at the Faculty of Technology, University of Novi Sad 🎓. Their responsibilities include conducting and preparing laboratory and computational exercises for Materials Engineering courses such as Synthetic Polymer Chemistry, Plastic Processing Technology, and Recycling of Polymer Materials 🧪🔬. They also contribute to research funded by the Ministry of Education, Science, and Technological Development of the Republic of Serbia 🌟🔍. [Name] is dedicated to advancing both teaching and research in the field.

Projects

From 2010 to 2019, the user contributed to nanocomposites and functional materials research funded by the Serbian Ministry of Education. They have since engaged in diverse projects, including biodegradable materials, diagnostic probes, and bioeconomy applications. Notable roles include managing the “E-NOSE” Horizon Europe project (2023) and leading the “BugControl” initiative (2024). Other projects involve optimization of food carbohydrates, waste valorization, and advanced hydrogels for agriculture. They have also collaborated internationally on quantum correlations and wearable smart patches. Their work spans significant research funding and innovative developments. 🌍🔬📈🌱🧪

Research focus

Based on the provided research publications, the individual’s research focus seems to center on sustainable and eco-friendly materials in food and packaging industries. Their work includes developing biodegradable films, active coatings, and nanotechnology-based coatings, which aim to enhance food preservation and packaging efficiency. They also explore the incorporation of natural substances like essential oils and plant-based extracts for improving product stability and shelf life. The research emphasizes using biopolymers and plant-derived materials to create environmentally friendly and functional products. 🌱📦🔬

Publication top notes

Updating the Status quo on the Eco-Friendly Approach for Antioxidants Recovered from Plant Matrices Using Cloud Point Extraction

Comparison of the Properties of Pullulan-Based Active Edible Coatings Implemented for Improving Sliced Cheese Shelf Life

Preparation and Characterization of PHBV/PCL-Diol Blend Films

Progress in Fruit and Vegetable Preservation: Plant-Based Nanoemulsion Coatings and Their Evolving Trends

Hydrolytic and thermal stability of urea-formaldehyde resins based on tannin and betaine bio-fillers

Insight on Incorporation of Essential Oils as Antimicrobial Substances in Biopolymer-Based Active Packaging

Preparation and characterization of biodegradable cellulose acetate-based films with novel plasticizer obtained by polyethylene terephthalate glycolysis intended for active packaging

Fortification of chocolate with microencapsulated fish oil: Effect of protein wall material on physicochemical properties of microcapsules and chocolate matrix

A comprehensive approach to chitosan-gelatine edible coating with β-cyclodextrin/lemongrass essential oil inclusion complex — Characterization and food application

 

Md Jamir Uddin | Computational chemistry, Pharmaceutical chemistry | Best Researcher Award

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Md Jamir Uddin | Computational chemistry, Pharmaceutical chemistry | Best Researcher Award

Mr Md Jamir Uddin, Red Green Research Centre, Bangladesh

🔬📚 Md. Jamir Uddin, B.Sc. in Chemistry, is a dynamic researcher with a passion for analytical, computational, organic, and biological chemistry. Currently serving as a Research Assistant at the Red Green Research Centre, he specializes in innovative treatments for Alzheimer’s disease, leveraging his expertise in peptide conjugation and enzyme interaction. With a strong academic background from Hajee Mohammad Danesh Science and Technology University, his dedication extends to teaching chemistry at SIOS School and College. Jamir’s multidisciplinary skills encompass computational modeling, research publication, and community service, reflecting his commitment to advancing scientific knowledge and societal well-being.

Publication profile

google scholar

Education

In October 2019, I proudly graduated from Hajee Mohammad Danesh Science and Technology University in Dinajpur, Bangladesh, with a Bachelor of Science in Chemistry 🎓. Throughout my undergraduate journey, I maintained a commendable CGPA of 3.44/4 📚. My academic endeavors culminated in a rigorous undergraduate thesis titled “Revolutionizing Environmental Cleanup and Medical Treatment with Nano-Sponges: A Comprehensive Review.” Under the guidance of Professor Dr. Atikul Islam, I delved deep into the promising realm of nano-sponges, exploring their potential in both environmental remediation and medical advancements .

Experience

As a dedicated researcher and educator, I’ve delved into the intricate realms of science, from probing the potential of scorpion venom peptides in combating Alzheimer’s disease to exploring the therapeutic properties of Ganoderma lucidum in cancer treatment. 🧪 Armed with a fervent curiosity and an eye for detail, I’ve meticulously synthesized complex compounds, optimized reaction parameters, and assessed biological activities both in vitro and in vivo. 🌱 Additionally, my passion extends to nurturing young minds as I facilitate learning experiences, foster critical thinking, and provide invaluable support in classroom settings. 📚 With each endeavor, I strive to contribute meaningfully to the advancement of science and education.

Research focus

MJ Uddin is a versatile researcher whose interests span across various domains of biomedical sciences. With a keen focus on emerging infectious diseases like Ebola and SARS-CoV-2, they delve into virological characteristics, diagnosis, and treatment strategies. Their work extends to the forefront of therapeutic innovations, exploring the potential of extracellular vesicles and aptamer biosensors for drug delivery and detection of endocrine-disrupting chemicals. Additionally, they contribute significantly to combating antifungal resistance, offering insights into new strategies and targets. Uddin’s dedication to understanding and addressing pressing healthcare challenges showcases a commitment to improving global health 🧬🔬💊.

 

Publication top notes

Extracellular vesicles: The future of therapeutics and drug delivery systems

Aptamer biosensor design for the detection of endocrine-disrupting chemicals small organic molecules using novel bioinformatics methods

An insight into new strategies and targets to combat antifungal resistance: A comprehensive review

Ebola virus: a new concern, its virological characteristics, diagnosis, present condition, and treatment during the ongoing SARS-CoV-2 omicron variant–correspondence