Shrikant Verma | Material Science | Excellence in Research Award

Published on 14/10/202514/10/2025 by Cryogenicist

Dr. Shrikant Verma | Material Science | Excellence in Research Award

Associate Professor | Poornima University | India

Dr. Shri Kant Verma is an Associate Professor in the Department of Physics at Poornima University, Jaipur, specializing in materials science, semiconductor physics, and nanotechnology. He holds a Ph.D. in Metallurgical and Materials Engineering from Malaviya National Institute of Technology, Jaipur, an M.Tech. in Materials and Metallurgical Engineering from Thapar University, and an M.Sc. in Physics from C.S.J.M. University, Kanpur. With extensive academic and research experience, Dr. Verma serves as the Coordinator of Physics and Deputy Head of the Centre for Research, Instrumentation and Development at Poornima University, where he supervises doctoral research on solar cells, thin-film transistors, and semiconductor materials. His research focuses on melt coolability, compound semiconductors, nanomaterials, and renewable energy applications, contributing significantly to the advancement of photovoltaic and flexible electronic technologies. Dr. Verma has authored impactful publications in reputed journals such as Next Research, Materials Research Express, and Engineering Research Express, and holds multiple granted patents in the areas of solar cell optimization, biosensor devices, and silica extraction technology. He has also organized national seminars and workshops promoting innovation in nanoscience and instrumentation. A member of professional bodies including ISAS, MRSI, and IAPT, Dr. Verma’s work exemplifies a blend of scientific innovation and academic leadership. His research achievements are reflected in his citation record with 34 citations, an h-index of 3, and an i10-index of 1.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Verma, S., Agrawal, V., Jain, K., Pasricha, R., & Chand, S. (2013). Green synthesis of nanocrystalline Cu₂ZnSnS₄ powder using hydrothermal route. Journal of Nanoparticles, 2013(1), 685836.

2. Shrikant, Verma, S., Pandel, U., Duchaniya, R. K., & Nayak, A. K. (2016). Quenching behavior of molten pool with different strategies – A review. AIP Conference Proceedings, 1728(1), 020448.

3. Soley, S. S., Verma, S., Khatri, N., & Pokhriyal, S. (2024). Advancing efficiency: Comprehensive strategies for minimizing optical and electrical losses in group III–V compound tandem solar cells for future photovoltaic technology. Engineering Research Express, 6(3), 032301.

4. Verma, S., Pandel, U., Duchaniya, R. K., & Nayak, A. K. (2015). Quenching behavior of molten pool with different strategies – A review. Proceedings of the International Conference on Condensed Matter and Applied Physics (ICC 2015).

5. Soley, S. S., Verma, S., & Khatri, N. (2024). Luminescent boron carbon oxynitride phosphors: A cost-efficient strategy to boost solar cell spectral responsiveness. Materials Research Express, 11(7), 075504.

Diana Berman | Tribology | Best Academic Researcher Award

Published on 06/10/202506/10/2025 by Cryogenicist

Assoc. Prof. Dr. Diana Berman | Tribology | Best Academic Researcher Award

Associate Professor | University of North Texas | United States

Dr. Diana Berman, Associate Professor in the Department of Materials Science and Engineering at the University of North Texas and Director of the Tribology Center at the Advanced Materials and Manufacturing Processes Institute, is a leading expert in functional nanostructured materials and tribology. She earned her Ph.D. and M.S. degrees in Physics from North Carolina State University and her B.S. in Applied Physics and Mathematics from the Moscow Institute of Physics and Technology. Her professional trajectory spans key research roles at Argonne National Laboratory and leadership in academia, where she has directed transformative projects on multicomponent ceramics, carbon-based materials, and advanced coating technologies for friction and wear reduction. Dr. Berman’s research focuses on synthesis, structure–property relationships, and environment–material interactions, with a prolific record of publications, patents, and invited talks contributing significantly to the advancement of superlubricity and nanomaterials. Her work has earned her numerous prestigious awards, including the NSF CAREER Award, Fulbright Distinguished Scholar Award, and recognition among the Top 2% of scientists worldwide. She actively serves on editorial boards such as Nature Scientific Reports and Tribology Letters, and holds leadership positions in professional organizations including the American Vacuum Society and the Society of Tribologists and Lubrication Engineers. A dedicated mentor and innovator, she has supervised graduate and undergraduate researchers, contributed to major research funding initiatives, and advanced international collaborations. Professionally: 7,091 Citations, Documents 119, Documents 33 in Scopus.

Profiles: Scopus | ORCID | Google Scholar

Featured Publications

1. Berman, D., Erdemir, A., & Sumant, A. V. (2014). Graphene: A new emerging lubricant. Materials Today, 17(1), 31–42.

2. Berman, D., Deshmukh, S. A., Sankaranarayanan, S. K. R. S., Erdemir, A., & Sumant, A. V. (2015). Macroscale superlubricity enabled by graphene nanoscroll formation. Science, 348(6239), 1118–1122.

3. Berman, D., Erdemir, A., & Sumant, A. V. (2013). Few layer graphene to reduce wear and friction on sliding steel surfaces. Carbon, 54, 454–459.

4. Berman, D., Erdemir, A., & Sumant, A. V. (2013). Reduced wear and friction enabled by graphene layers on sliding steel surfaces in dry nitrogen. Carbon, 59, 167–175.

5. Berman, D., Erdemir, A., & Sumant, A. V. (2018). Approaches for achieving superlubricity in two-dimensional materials. ACS Nano, 12(3), 2122–2137.

Xiaolin Lan | Multifunctional Composite Materials | Best Researcher Award

Published on 12/09/202513/09/2025 by Cryogenicist

Xiaolin Lan | Multifunctional Composite Materials | Best Researcher Award

Associate Professor | Northeast Forestry University | China

Dr. Xiaolin Lan, Associate Professor at the College of Material Science and Engineering, Northeast Forestry University, is an accomplished scholar in chemical engineering and advanced materials research. He holds a Ph.D. in Chemical Engineering and Technology from the Harbin Institute of Technology, a bachelor’s degree in Light Chemical Engineering from Northeast Forestry University, and has completed visiting doctoral research at the National University of Singapore. His professional career includes roles as an assistant research fellow at the Changchun Institute of Applied Chemistry, Chinese Academy of Sciences, and academic leadership at his home institution, where he contributes to teaching and research development. Dr. Lan’s research focuses on biomass-based functional materials and multifunctional composite materials, with particular expertise in electromagnetic wave absorption, microwave attenuation, and high-temperature-resistant ceramics. He has authored impactful publications in leading journals such as Chemical Engineering Journal, Small, Carbon, and ACS Applied Materials & Interfaces, advancing the understanding of lightweight, porous, and high-performance materials for energy and environmental applications. Complementing his publications, Dr. Lan has also contributed to technological innovation through several patents on nanomaterials and composite fiber fabrication. His academic achievements and research excellence reflect his dedication to advancing material science and engineering, making him a distinguished candidate for recognition in his field.

Profiles : Scopus | ORCID

Featured Publications

Lan, X., Wang, R., Liu, W., Huang, Z., Deng, P., & Wang, Z. (2024). Multicomponent synergistic flower-like FeS/hollow C fiber for tunable and efficient microwave absorption. Chemical Engineering Journal, 485,

Dai, D., Lan, X., & Wang, Z. (2023). Hierarchical carbon fiber reinforced SiC/C aerogels with efficient electromagnetic wave absorption properties. Composites Part B: Engineering, 243, 110376.

Quan, J., Lan, X., Lim, G. J. H., Hou, Y., Yang, Y., & Khoo, B. C. (2022). Hierarchical SiC fiber aerogel toward microwave attenuation and thermal insulation application. Journal of Alloys and Compounds, 918, 165097.

Dai, D., Lan, X., Wu, L., & Wang, Z. (2022). Designed fabrication of lightweight SiC/Si3N4 aerogels for enhanced electromagnetic wave absorption and thermal insulation. Journal of Alloys and Compounds, 912, 163651.

Lan, X., Hou, Y., Dong, X., Yang, Z., Thai, B. Q., Yang, Y., & Zhai, W. (2022). All-ceramic SiC aerogel for wide temperature range electromagnetic wave attenuation. ACS Applied Materials & Interfaces, 14(13), 15360–15369.

Farzad Habibi | Materials Science | Best Researcher Award

Published on 02/08/202504/08/2025 by Cryogenicist

Dr. Farzad Habibi | Materials Science | Best Researcher Award

Researcher, Sahand University of Technology, Iran

Dr. Farzad Habibi is a materials scientist and engineer with an extensive background in joining metallurgy, surface engineering, and materials characterization. He currently serves as CEO of Fara Sakht Karan Azerbaijan Co., while maintaining key research and teaching roles at Sahand University of Technology. With over a decade of academic, industrial, and research experience, Dr. Habibi has contributed significantly to the development of innovative joining technologies and high-performance coatings. His expertise spans thermodynamic simulations, microstructural analysis, and advanced welding methods, positioning him as a leading figure in both academic and industrial materials engineering communities.

Professional Profile

ORCID | Google Scholar

Education

Dr. Habibi earned his Ph.D. in Materials Science and Engineering from Sahand University of Technology. His doctoral studies built upon a Master of Science in Welding Metallurgy and a Bachelor of Science degree in Materials Science and Engineering from Tabriz University. He began his academic journey with a High School Diploma in Mathematics and Physics, laying the foundation for his analytical and engineering skills.

Experience

Dr. Habibi has held diverse roles in academia and industry, reflecting his interdisciplinary proficiency he has been the CEO of Fara Sakht Karan Azerbaijan Co., where he oversees advanced materials solutions for industrial applications. He also serves on the Board of Directors of Sahand Nanolotus Co., and has been a lead researcher at Iran Mavad Co. His academic roles include laboratory assistant at Sahand University’s Advanced Manufacturing Research Center and past teaching assistant positions. He has also worked in quality control and R&D management in automotive and heat treatment industries.

Research Focus

Dr. Habibi’s research centers on joining metallurgy, including brazing, soldering, and diffusion bonding techniques for dissimilar materials. He is also active in the development of electro-spark deposition (ESD) coatings and investigates the physical metallurgy of phase transformations and thermodynamics. His work extends into archaeometry and the analysis of ancient metallic artifacts. Current projects include the development of HEA coatings, interlayer engineering for tungsten carbide/steel joints, and electro-spark deposition of titanium- and zirconium-based coatings.

Awards and Honors

Dr. Habibi has received several professional recognitions for his contributions to materials science and engineering. He was honored by the Nano Headquarters for securing research funding and was named Best Reviewer by the Journal of Advanced Joining Processes (Elsevier). He also holds a patent related to the use of electro-spark deposition (ESD) for dissimilar material joining. Additionally, Dr. Habibi has led multiple industrial projects focused on wear-resistant coatings for major manufacturing companies.

Publication Top Notes

Title: Feasibility of Electrical Discharge Machining (EDM) of AZ31 Lightweight Magnesium Alloy in Dielectric Fluids of Hydrocarbon Oil and Deionized Water
Authors: Saeed Asghari, Mohammad Reza Shabgard, Maghsoud Shalvandi, S. Abolfazl Roudehchi, Farzad Habibi
Journal: International Journal of Lightweight Materials and Manufacture
Summary: This research evaluates EDM machining of AZ31 magnesium alloy using hydrocarbon oil and deionized water as dielectric fluids. The study investigates machining efficiency, surface quality, and tool wear to assess the feasibility of EDM for lightweight magnesium alloys.

Title: Microstructural Evaluation and Mechanical Properties of WC-6%Co/AISI 1045 Steel Joints Brazed by Copper, Brass, and Ag-based Filler Metals: Selection of the Filler Material
Authors: Farzad Habibi, Amir Mostafapour, Karim Heydarpour
Journal: Journal of Advanced Joining Processes
Summary: The article compares copper, brass, and silver-based filler metals in brazing WC-6%Co to AISI 1045 steel. It focuses on microstructural changes and mechanical properties to determine the optimal filler for joint strength and durability.

Title: In-situ Formation of Ultra-hard Titanium-based Composite Coatings on Carbon Steel through Electro-Spark Deposition in Different Gas Media
Authors: Farzad Habibi, Ahad Samadi
Journal: Surface and Coatings Technology
Summary: Explores the influence of various gas atmospheres on electro-spark deposition of titanium-based composite coatings on carbon steel. The study examines coating hardness, phase composition, and microstructural characteristics.

Title: Microstructural Evolution During Low-temperature Brazing of WC-Co Cemented Carbide to AISI 4140 Steel Using a Silver-based Filler Alloy
Authors: Farzad Habibi, Ahad Samadi, Mohammad Nouri
Journal: International Journal of Refractory Metals and Hard Materials
Summary: Investigates the microstructural development and bonding mechanisms in low-temperature brazing of WC-Co cemented carbide to AISI 4140 steel with silver-based filler alloys, aiming to improve joint quality.

Title: Interfacial Reactions in Actively Brazed Cu-Al₂O₃ Composites and Copper Using a Newly Developed Cu-Sn-Ag-Ti Filler Alloy
Authors: Farzad Habibi, Ahad Samadi
Journal: Science and Technology of Welding and Joining
Summary: This study presents a novel Cu-Sn-Ag-Ti active filler alloy for brazing copper to Cu-Al₂O₃ composites. It examines interfacial reactions, phase formation, and joint integrity to enhance metal-ceramic joining techniques.

Conclusion

Dr. Farzad Habibi is a dedicated scientist whose multifaceted work in materials science bridges academic theory and industrial application. His innovations in joining technologies and surface engineering, combined with a strong publication record and commitment to education, make him a highly deserving nominee for distinction in materials science and engineering. Through continued research, leadership, and mentorship, Dr. Habibi contributes meaningfully to the advancement of advanced manufacturing and materials characterization in both national and international contexts.

Tiandong Xia | Materials Science | Best Researcher Award

Published on 16/05/202516/05/2025 by Cryogenicist

Prof. Dr. Tiandong Xia | Materials Science | Best Researcher Award

Professor, Lanzhou University of Technology, China

Professor Tiandong Xia is a leading academic and doctoral supervisor in the Department of Materials Science and Engineering at Lanzhou University of Technology. With deep expertise in biomedical materials, he has built a career grounded in innovation and scientific inquiry. His research contributions span the synthesis, processing, and application of functional materials, with a focus on microneedle technology, biocompatibility, and electrochemical performance. Recognized for his collaborative and interdisciplinary approach, Professor Xia has published impactful research articles that bridge materials science and medical technology.

Professional Profile

Scopus Profile

Education 🎓

Professor Xia pursued his entire academic formation in the field of Materials Science and Engineering, completing his undergraduate, master’s, and doctoral degrees with academic distinction. His doctoral work focused on functional materials for high-performance biomedical applications, establishing a foundation for his future career as a researcher and mentor. His educational background is marked by a commitment to both theoretical understanding and applied research, which continues to guide his scholarly pursuits today.

Experience 🏫

Over the years, Professor Xia has played an instrumental role in advancing materials science research at Lanzhou University of Technology. As a doctoral supervisor, he has mentored numerous postgraduate students, fostering a research culture of curiosity and precision. He is frequently involved in national and international research collaborations, contributing his expertise in biomaterials engineering to address complex challenges in healthcare technologies. His academic roles also include curriculum development, lab oversight, and participation in scientific committees focused on materials innovation.

Research Interests 🔬

Professor Xia’s research bridges materials science, bioengineering, and applied chemistry, with a focus on developing smart, safe, and effective materials for biomedical use. His key areas include microneedles for transdermal sensing and drug delivery, electrode and surface modification, oxidation resistance of metal alloys, and nano-structured coatings and biosensors. His work aims to advance minimally invasive diagnostic and therapeutic technologies that address real-world medical challenges.

Publications Top Notes📚

ia, Baoling; Xia, Tiandong; Wang, Xiaohui; Xu, Yangtao; Li, Bei. Investigation of biosensing properties in magnetron sputtered metallized UV-curable polymer microneedle electrodes. Journal of Biomaterials Science, Polymer Edition, 2024.
Summary: This study explores the fabrication and biosensing performance of UV-curable polymer microneedle electrodes metallized via magnetron sputtering. The work demonstrates promising electrochemical properties suitable for minimally invasive biosensor applications.
Zhang, Han; Gao, Yueyue; Qiao, Jisen; Xia, Tiandong. Effect of high temperature heat treatment on microstructure and mechanical properties of electrodeposited nickel. Jinshu Rechuli/Heat Treatment of Metals, 2023.
Summary: This article investigates how high-temperature heat treatment affects the microstructure and mechanical behavior of electrodeposited nickel. Findings indicate that controlled heat treatment enhances grain growth and mechanical strength.
Jia, Baoling; Xia, Tiandong; Wang, Xiaohui; Xu, Yangtao; Guo, Zhenyu. Morphology design of polymer microneedle arrays: Key factors from the application perspective. Review Article, Year Not Specified.
Summary: This review examines critical factors influencing the morphology of polymer microneedle arrays, such as shape, size, and structural design, with a focus on optimizing their functionality for transdermal drug delivery and biosensing applications.
Xie, Xiao; Wang, Xiaojun; Xia, Tiandong. Effects of Rare Earth Y on Oxidation Resistance of Cr20Ni80 Electrothermal Alloy at High Temperature. Tezhong Zhuzao Ji Youse Hejin/Special Casting and Nonferrous Alloys, 2022.
Summary: The paper analyzes the impact of rare earth element yttrium on the high-temperature oxidation resistance of Cr20Ni80 electrothermal alloy. Results show that Y addition significantly enhances surface stability and oxidation resistance under thermal stress.

Conclusion 🏆

Professor Tiandong Xia has built a distinguished career in materials science, particularly in the development of biomedical materials that serve both clinical and industrial purposes. His innovative research on microneedle technologies and alloy modification has not only advanced academic knowledge but also opened new possibilities in non-invasive medical diagnostics and high-performance engineering applications. His commitment to excellence, mentorship, and collaborative research makes him a compelling candidate for any award recognizing contributions to science and technology.

Hemalatha Somireddi | Materials Science | Best Researcher Award

Published on 16/04/202516/04/2025 by Cryogenicist

Assoc. Prof. Dr. Hemalatha Somireddi | Materials Science | Best Researcher Award

Associate Professor, Raghu Engineering College, India

Dr. Hemalatha Somireddi is an accomplished academic and researcher in Mechanical Engineering with a specialization in Industrial and Manufacturing Systems. Currently serving as an Associate Professor at Raghu Engineering College, Visakhapatnam, she has consistently contributed to both teaching and applied research in her field. With over 17 years of teaching and industry experience, she is recognized for her expertise in supply chain modeling, performance evaluation of container terminals, and mechanical characterization of materials. Dr. Hemalatha is also an active contributor to academic and professional development through organizing seminars, guiding students, publishing technical papers, and securing patents. Her passion lies in bridging academic research with real-world engineering problems.

Profile

Orcid

Education 🎓

Dr. Hemalatha earned her Ph.D. in Mechanical Engineering from Jawaharlal Nehru Technological University, Kakinada, in 2020, where she focused on performance measurement frameworks for container terminals. She completed her Master’s in Industrial Engineering from Andhra University in 2012 with a CGPA of 8.1. Her undergraduate degree, a B.Tech in Mechanical Engineering, was awarded by JNTU Hyderabad in 2006. Her academic journey began with intermediate education at Guntur Vikas Junior College and SSC from a government high school in Srikakulam, reflecting her strong foundational knowledge and consistent academic performance.

Experience 💼

Dr. Hemalatha began her career as a Design Engineer at SBC Naval Dockyard, Visakhapatnam, gaining valuable industrial exposure from 2006 to 2008. Transitioning to academia, she served as an Assistant Professor at various institutions including Sri Gnaneswari Research & Technological Academy and Sri Chaitanya College of Engineering. She later joined Lendi Institute of Engineering & Technology, progressing from Assistant to Associate Professor. Since 2017, she has been associated with the Raghu group of institutions, currently holding the position of Associate Professor at Raghu Engineering College. Her roles have extended beyond teaching to include responsibilities such as R&D coordination, organizing technical seminars, and coordinating accreditation activities.

Research Interests 🔬

Dr. Hemalatha’s research primarily revolves around performance analysis in logistics and manufacturing systems, particularly focusing on container terminal operations, supply chain modeling under fuzzy environments, and multi-criteria decision-making techniques. She also explores material characterization, including hybrid polymer composites, metal matrix composites, and performance enhancement of centrifugal and injection molding systems. Her research reflects a blend of theoretical modeling and practical validation, often incorporating AI-based tools and optimization techniques for manufacturing processes.

Publication Top Note📚

“Supply chain strategy based supplier evaluation – An integrated framework” (IJMVSC, 2015) – cited for its methodological approach to supplier evaluation.

“Supply chain performance evaluation through AHM and membership degree transformation” (Materials Today: Proceedings, 2017) – Scopus Indexed.

“Modeling and analysis of a four stage supply chain under fuzzy environment” (IJENM, 2018) – recognized for its application of fuzzy logic in logistics modeling.

“Service quality evaluation and ranking of container terminal operators” (AJSL, 2018) – featured in the Asian Journal of Shipping and Logistics, widely cited in terminal performance literature.

“Service quality evaluation through AHM and Membership Degree Transformation” (Materials Today: Proceedings, 2019) – frequently referenced in studies on maritime logistics.

“Design, Development and Testing of an Automatic Desktop Injection Molding Machine” (IJARIIT, 2021) – illustrates her interdisciplinary work bridging design and manufacturing.

“Technical Efficiency Evaluation and Ranking of Container Terminal Operators Through DEA” (Materials Today: Proceedings, 2023) – a significant contribution in performance benchmarking.

Conclusion ✅

Dr. Hemalatha Somireddi has carved a niche for herself in mechanical and industrial engineering through her persistent pursuit of academic excellence, impactful research, and active community engagement. Her work addresses contemporary challenges in manufacturing and logistics, integrating tools like DEA, AHP, and fuzzy logic into performance measurement and evaluation systems. With a forward-looking mindset, she continues to explore innovative methodologies in materials and manufacturing technologies. As a mentor, innovator, and academic leader, she exemplifies the spirit of applied engineering education and research, consistently contributing to the advancement of both her students and the scientific community.

Aleksandar Bojić | Material Science | Best Researcher Award

Published on 28/02/202528/02/2025 by Cryogenicist

Prof. Aleksandar Bojić | Material Science | Best Researcher Award

Full Professor | University of Niš, Faculty of Sciences | Serbia

Aleksandar Bojić is a distinguished Serbian academic and researcher currently serving as a Full Professor at the Faculty of Sciences and Mathematics, University of Niš. With an extensive background in applied, industrial, and environmental chemistry, Bojić has made significant contributions to the fields of water treatment, environmental chemistry, and materials science. Over the years, he has directed several key research projects focusing on innovative approaches to wastewater purification, chemical and electrochemical processes, and environmental protection. His work has earned him recognition within both national and international scientific communities.

Profile

Scopus
Orcid

Education

Bojić’s educational journey began at the University of Niš, where he earned his Bachelor’s degree in Chemistry in 1991, focusing on the influence of physicochemical properties of glasses on the mechanical characteristics of ceramic joints. He continued his academic pursuit by obtaining a Master’s degree in 1997, exploring electrocatalysis in aqueous solutions with a solid metal catalyst. In 2002, Bojić completed his PhD, which centered on the electrochemical effects of microalloyed aluminum-based composites on microorganisms in aqueous environments.

Experience

Throughout his career, Bojić has held various academic and research positions at the University of Niš, advancing through the ranks from Research Assistant to Full Professor. His professional experience extends beyond teaching, as he has led numerous research initiatives and contributed significantly to the scientific community’s understanding of water treatment and environmental chemistry. He has served as Head of the Laboratory for Applied, Industrial, and Environmental Chemistry since 2011, a role that allows him to directly impact the development of new technologies for water purification and waste management.

Research Interest

Bojić’s research interests are wide-ranging but focus primarily on applied chemistry and environmental engineering. He is particularly interested in advanced oxidation processes (e.g., UV/Ox, photocatalysis, and Fenton processes) for water treatment, as well as the use of biosorbents and activated carbons in wastewater purification. Additionally, his work explores electrochemical processes for water treatment, such as electro-oxidation and electro-coagulation-flotation. He has also made notable contributions to the study of corrosion, materials science, and the development of sustainable solutions for environmental protection. His work in these fields aims to address global challenges, including water contamination and the sustainable use of natural resources.

Award

Based on the extensive qualifications, research background, and contributions, Aleksandar Bojić seems highly suitable for the “Best Researcher Award.

Publications Top Note

Bojić, A.L., et al. “Enhanced thermal stability and excellent electrochemical and photocatalytic performance of needle-like form of zinc-phthalocyanine.” Ceramics International, 2024.

Filipović, K., et al. “Highly efficient nano sorbent as a superior material for the purification of wastewater contaminated with anthraquinone dye RB19.” Journal of Water Process Engineering, 2024.

Petrović, M.M., et al. “Co-doped ZnO catalyst for non-thermal atmospheric pressure pulsating corona plasma degradation of reactive dye.” Materials Chemistry and Physics, 2024.

Velinov, N.D., et al. “The Application of Wood Biowaste Chemically Modified by Bi2O3 as a Sorbent Material for Wastewater Treatment.” Processes, 2024.

Tadić, T.T., et al. “Novel eco-friendly sorbent derived from Acer pseudoplatanus seed for atenolol removal from pharmaceutical wastewater.” Journal of Water Process Engineering, 2024.

Petrović, M.M., et al. “Non-thermal atmospheric-pressure positive pulsating corona discharge in degradation of textile dye Reactive Blue 19 enhanced by Bi2O3 catalyst.” Plasma Science and Technology, 2024.

Conclusion

Aleksandar Bojić is a respected researcher and academic whose work in environmental chemistry, water treatment, and materials science has had a profound impact on both academic and practical approaches to environmental sustainability. His numerous publications, research projects, and awards speak to his commitment to advancing the understanding of chemical processes for environmental protection. Through his leadership in research and teaching, Bojić continues to contribute to the scientific community, guiding the next generation of researchers in tackling some of the world’s most pressing environmental challenges.