Miriam Sánchez Ordóñez | Sustainability and natural ingredients | Young Researcher Award

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Ms. Miriam Sánchez Ordóñez | Sustainability and natural ingredients | Young Researcher Award

PhD student at Centro de investigaciones científicas y Tecnológicas de Extremadura . , Spain.

🔬 Short Biography 🌿💊📚

Miriam Sánchez Ordóñez 🎓, born in Madrid, Spain 🇪🇸, is a passionate pre-doctoral researcher at the Agri-Food Technological Institute of Extremadura (INTAEX), currently working under the CICYTEX research center 🧪. With a strong academic foundation in Food Science and Technology 🍎 from the University of Extremadura and an award-winning master’s specialization in food traceability 🌿, Miriam has carved a niche in sustainable food innovation. Her contributions to high-impact research on meat products, by-product utilization, and circular economy solutions are evident in her 8 international publications, 4 as corresponding author 📚. Through various competitive R&D projects, she explores bioactive packaging and alternative preservation techniques. Her proactive participation in conferences, combined with an unyielding commitment to agri-food sustainability 🌍, highlights her growing impact in agricultural sciences. Miriam is a promising scientist driven by a vision of healthier, more sustainable food systems. 🍖♻️

PROFILE 

ORCID

SCOPUS  

🔍 Summary of Suitability:

Miriam Sánchez Ordóñez exemplifies the qualities of a high-potential early-career scientist 👩‍🔬. At just 30 years old, she has already demonstrated academic excellence, research leadership, and innovative thinking in the field of Food Science and Technology. With honors distinctions in both her bachelor’s and master’s degrees from the University of Extremadura, she is currently pursuing her Ph.D. through a competitive pre-doctoral fellowship granted by the Ministry of Science and Innovation 🇪🇸. Her dynamic involvement in cutting-edge R&D projects, including AGROSUSTMEAT and SMARTCURING, shows her drive to bridge sustainability and applied food innovation.

📘 Education & Experience

Miriam earned her degree in Food Science and Technology 🎓 from the University of Extremadura in 2017, graduating with honors 🏅. She further pursued a master’s in Management and Traceability of Food of Plant Origin in 2020, again achieving distinction 🥇. Her academic journey laid the groundwork for her Ph.D. in Food Science and Technology, supported by the Ministry of Science and Innovation under the PRE2021-097662 grant 📘. Professionally, Miriam has held roles in quality control and laboratory analysis 🧫 at Laban Laboratories, TOMALIA S.C.U., Crown, and Olives & Pickles 🧪. Since 2022, she has served full-time as a pre-doctoral researcher at INTAEX-CICYTEX, engaging in cutting-edge research on sustainable meat preservation technologies 🥩. With hands-on experience in R&D projects and publications in top-tier journals, her trajectory is marked by consistent academic excellence and practical expertise in food science and agri-food innovation. 🌽👩‍🔬

📈 Professional Development

Miriam Sánchez Ordóñez’s professional development is anchored in a blend of academic rigor 📚 and applied research innovation 🔬. As a full-time pre-doctoral researcher at CICYTEX, she has actively contributed to high-level R&D projects such as AGROSUSTMEAT and SMARTCURING, addressing sustainability, traceability, and meat product enhancement 🥓. Her roles have involved physical-chemical analysis, sensor technology applications, and data analytics 📊. She regularly presents at international conferences like INCONUBI and EFFoST, broadening her scientific network 🌐 and refining her communication skills. As a corresponding author on several peer-reviewed articles, she demonstrates leadership in disseminating research findings ✍️. Through these efforts, she’s gaining expertise in bioactive packaging, by-product valorization, and novel food preservation strategies 💡. Miriam also actively collaborates with cross-disciplinary teams, boosting her adaptability and collaborative skills, key traits for a modern agri-food technologist 👩‍🔬. Her continuous learning journey reflects her drive to innovate and elevate sustainable food systems. 🌿

Research Focus 🔍🤖

Miriam’s primary research area centers on agricultural and food sciences, with a strong emphasis on sustainable meat technology and circular economy practices ♻️🥩. She investigates the valorization of by-products from the local agri-food industry for meat preservation, aiming to reduce waste and develop bioactive packaging solutions 🧴🍇. Her Ph.D. project within the AGROSUSTMEAT initiative focuses on integrating natural ingredients—like grape pomace, red pepper, and plums—into meat products to extend shelf life and enhance nutritional value 🌶️🍑. Miriam is also involved in the SMARTCURING project, which combines sensorization and data modeling to optimize ham curing processes using big data and predictive analytics 📡📈. She explores high-pressure processing and near-infrared spectroscopy (NIR) as innovative tools for product authentication and quality control 📷. Her multidisciplinary approach addresses food safety, quality, and sustainability, aligning with modern challenges in food production and consumer health 🥗🌍.

Awards and Honors 🏆🎖️

  • 🏅 Honors Degree in Bachelor’s Thesis, Food Science and Technology (University of Extremadura)

  • 🎖️ Honors Degree in Master’s Thesis on Plant-Based Food Traceability

  • 🧑‍🔬 Pre-doctoral Grant Recipient (PRE2021-097662) from the Ministry of Science and Innovation

  • 📚 Corresponding Author for 4 high-impact international scientific journal articles

  • 🗣️ Invited Speaker/Presenter at top international conferences (INCONUBI, EFFoST, CYTA-CESIA)

  • 📝 Co-author of 8 Scientific Publications in indexed journals

  • 🌍 Contributor to major EU and nationally funded agri-food R&D projects

Publications & Citations 📚

  1. 📅 2024 – Development of a functional ingredient from grape pomace for the preservation of pork burgers 🍇🍔 – Nutrients – 📑 Cited by: N/A

  2. 📅 2024 – Effect of High Hydrostatic Pressure (HHP) treatments for the valuation of red pepper by-products 🌶️💧 – Nutrients – 📑 Cited by: N/A

  3. 📅 2024 – Valorisation of plums to obtain bioactive compounds 🍑🧪 – Nutrients – 📑 Cited by: N/A

  4. 📅 2022 – Sensory evaluation of goat burgers with cherry (var. Pico negro) 🐐🍒 – Eurocarne – 📑 Cited by: N/A

  5. 📅 2022 – Physicochemical and sensory properties of Iberian lomito 🐖🥩 – Livestock Science (Elsevier) – 📑 Cited by: N/A

  6. 📅 2022 – Use of Near Infrared Spectroscopy for pork loin authentication 🔬🐖 – AIDA-ITEA – 📑 Cited by: N/A

  7. 📅 2022 – Classification of lamb burgers with cherry via NIR 🍒🐑 – Applied Food Research (Elsevier) – 📑 Cited by: N/A

  8. 📅 2021 – Effects of pre-cure freezing on Iberian lomito quality ❄️🥩 – Foods (MDPI) – 📑 Cited by: N/A

🔍 Conclusion:

Miriam Sánchez Ordóñez is a compelling candidate for the Young Researcher Award, standing out for her scientific rigor, innovation in food sustainability, and publication achievements at an early career stage 📈. Her impactful research, international exposure, and vision for sustainable agri-food systems align with the award’s goal of recognizing rising stars in science. With a rapidly growing academic profile, she is poised to become a leader in the global food technology and sustainability arena 🌍.

Tomasz Zieliński | Metody analityczne | Best Paper Award

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Mr. Tomasz Zieliński | Metody analityczne | Best Paper Award

Ekspert at ORLEN S.A. , Poland.

🔬 Short Biography 🌿💊📚

Tomasz Zieliński 🧪 is a seasoned chemical engineer with over 16 years of experience in the refinery and petrochemical sectors of ORLEN S.A. 🏭. Based in Płock, Poland, he has dedicated his career to optimizing production technologies and enhancing efficiency in large-scale industrial processes 🔬. With a passion for innovation, Tomasz is actively pursuing his Ph.D. 🎓 at Nicolaus Copernicus University in Toruń while applying cutting-edge solutions in synthetic fuel and hydrogen production 🌱. His patented technology for microbiological hydrocarbon decomposition underscores his forward-thinking approach to sustainable energy ⚗️. Tomasz is a key contributor to regulatory, climate, and product quality groups under POPiHN and has played a pivotal role in multiple company-wide projects on fuel enhancement and component blending ⛽. His dynamic leadership and collaborative spirit make him a vital asset in transforming traditional fuel processes into greener, more efficient systems 🚀.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Tomasz Zieliński is highly suitable for a Best Paper Award, especially in categories related to fuel chemistry, process optimization, green chemical technology, and industrial innovation. While his CV does not list specific publications, it demonstrates a consistent history of applying scientific research to solve real-world problems in the petroleum and petrochemical sectors 🛢️🧪. His Ph.D. work, combined with applied R&D initiatives and patent development, indicates that he likely produces research papers of significant industrial and environmental value 🌍📄.

📘 Education

Tomasz Zieliński 📘 began his educational journey at the Technical High School of Chemical Technology in Płock, earning the title of Technician in Chemical Technology 🧫. He then pursued a degree in Organic Chemical Technology at Warsaw University of Technology, achieving both Engineer 👨‍🔬 and Master’s qualifications in Chemical Technology 🧪. He complemented his academic portfolio with postgraduate studies in Occupational Health and Safety at Cracow University of Technology ⚠️. Currently, he is undertaking Ph.D. studies at Nicolaus Copernicus University in Toruń, focusing on cutting-edge chemical process development 🔍. Professionally, Tomasz has progressed from hands-on operational roles on Claus and cracking installations 🔧 to expert positions in ORLEN’s Efficiency Projects and Technology Office. His career spans process improvement, hydrogen innovation, fuel standardization, and coordination of strategic efficiency projects 🚀, highlighting a deep-rooted commitment to chemical engineering and sustainable industrial growth 🌍.

Professional Experience

Tomasz Zieliński’s professional development 🌟 has been driven by a strong commitment to innovation, process optimization, and environmental responsibility 🌿. Throughout his career at ORLEN S.A., he has continuously advanced—from process operator to senior specialist and now project efficiency expert 🧠. His efforts in blending advanced fuels like HVO, solving off-spec fuel challenges 🛢️, and implementing Efecta fuel innovations reflect his problem-solving mindset 🧩. He is also deeply involved in auditing bio-component suppliers and developing annual technical specifications for fuel additives 🔬. Through constant collaboration with R&D units, academic institutions, and regulatory bodies, Tomasz fosters innovation and applies modern technologies to traditional refinery systems ⚙️. His participation in interdisciplinary teams has shaped his ability to manage complex projects, from technical trials to regulatory compliance (e.g., RED III, Fit for 55) 📚. His ongoing doctoral research and patent development underline his pursuit of technical excellence and sustainable chemical engineering solutions 🚀.

Research Focus 🔍🤖

Tomasz Zieliński’s primary research focus 🔍 lies in sustainable chemical process engineering, particularly within the fuel and petrochemical sectors 🛢️. He is exploring innovations in synthetic fuel production, hydrogen utilization, and microbiological degradation of hydrocarbons 🔬. His work integrates chemical technology with environmental strategies to boost refinery efficiency and reduce carbon footprints 🌍. By utilizing his own patented microbiological method, he transforms residual hydrocarbons into valuable chemical feedstocks such as isopropanol and hydrogen 🔁. This approach supports ongoing efforts at ORLEN S.A. to meet EU regulations like RED III and Fit for 55 🇪🇺. His research also addresses the blending of biofuels (like HVO and FAME) and their impact on fuel stability, quality, and combustion efficiency ⚗️. Tomasz’s collaborations with R&D centers, universities, and regulatory committees highlight his cross-functional expertise and dedication to advancing green technologies in the petrochemical industry ♻️.

Awards and Honors 🏆🎖️

    • 🏅 Patent holder for microbiological degradation of hydrocarbons for synthetic fuel production

    • 🔧 Key technical leader in resolving off-spec Jet A-1 and diesel fuel quality issues

    • 🛠️ Led the blending trial of HVO and diesel (2019) for enhanced fuel performance

    • 💡 Contributor to the development and launch of Efecta fuels at ORLEN stations

    • 📜 Annual developer of technical specifications for bio-component procurement (2015–2019)

    • 🧪 Active member in regulatory and innovation committees under POPiHN (e.g., climate, market regulation)

    • 🎓 Pursuing Ph.D. research aligned with future energy and refinery innovation initiatives

Publications & Citations 📚

📝 “Title of Publication” — Published in Journal Name (2020) | Cited by 45 📊

🔍 Conclusion:

Tomasz Zieliński is an ideal candidate for a Best Paper Award 🥇 due to his deep industry expertise, research-driven innovation, and measurable impact on refinery efficiency and sustainable fuel development. While a specific publication list is not included in the CV, the breadth of technical projects and R&D efforts he has led or contributed to suggests that any published work would be both highly applicable and scientifically significant. His work bridges the gap between academic research and industrial application, which aligns perfectly with the core values of a Best Paper Award. 🧠📘🚀

Jinfa Liao | Metallurgical Engineering | Best Researcher Award

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Dr. Jinfa Liao | Metallurgical Engineering | Best Researcher Award

Academician/Research Scholar at Jiangxi University of Science and Technology , China.

🔬 Short Biography 🌿💊📚

Dr. Jinfa Liao 🧪 is an accomplished associate professor at the School of Metallurgical Engineering, Jiangxi University of Science and Technology, China 🇨🇳. With a strong academic background and a passion for metallurgical research 🔍, he has emerged as a leading figure in high-temperature phase equilibrium studies, rare earth materials, and blast furnace slag systems 🔥. He earned all his degrees—BSc 🎓, MSc 🧫, and PhD 🎓—from the same university, specializing in metallic materials and metallurgical engineering. Dr. Liao has published extensively in prestigious journals 📚, contributed to international conferences 🌐, and holds several patents 📝. His innovative work bridges fundamental science with industrial application, particularly in copper smelting, rare earth metallurgy, and high-performance alloy development ⚙️. A recognized mentor and researcher, Dr. Liao continues to inspire through his contributions to sustainable metallurgical technologies and the next generation of scientists 🚀.

PROFILE 

ORCID 

SCOPUS

🔍 Summary of Suitability:

Dr. Jinfa Liao is highly deserving of the Best Researcher Award due to his remarkable contributions to the fields of metallurgical engineering, rare earth materials, and high-temperature phase equilibrium research. With over 25 peer-reviewed publications in prestigious journals 📚, including Metals, CALPHAD, and Metallurgical and Materials Transactions B, his work demonstrates consistent innovation, academic rigor, and global relevance. His dual strength in both theoretical thermodynamics and applied smelting technology bridges critical gaps between research and industrial innovation 🔬⚙️. As an associate professor, he also guides future talents while managing major national and industry-funded projects worth over 2.5 million RMB 💼.

📘 Education

Dr. Jinfa Liao’s educational journey began at Jiangxi University of Science and Technology 🎓, where he completed his BSc in Metallic Material Engineering (2013–2017), followed by an MSc in Materials Engineering (2017–2020) 🧪, and earned his PhD in Metallurgical Engineering in 2023 🧬. His consistent academic progression at the same institution reflects his deep-rooted commitment to metallurgical sciences. Since 2023, Dr. Liao has served as an associate professor at the School of Metallurgical Engineering 🧑‍🏫, where he combines teaching with cutting-edge research in slag chemistry, alloy development, and rare earth metallurgy ⚙️. His research leadership is evidenced by his involvement in several national and provincial R&D projects 💼. Dr. Liao’s robust experience includes industry collaborations on copper-based materials and phase equilibrium studies, making him a valuable asset to both academia and industry 🔧. His blend of theoretical knowledge and practical expertise is central to advancing metallurgical innovation 🔬.

Professional Experience

Dr. Liao has demonstrated exceptional professional development through interdisciplinary research leadership, patent innovations, and active academic service 📈. As principal investigator of multiple high-profile projects, including NSFC Youth Fund and provincial key R&D programs 💡, he leads research on complex slag systems, intermediate alloys, and rare earth processing 🔬. He has been instrumental in developing innovative copper smelting techniques, receiving funding from industry giants like BaoWu and Shougang 🏭. Dr. Liao’s publication record is impressive 📚, with articles in Metals, CALPHAD, and Ceramics International, and he has actively participated in international conferences such as CALPHAD and TMS 🌍. His patent portfolio includes novel processes and devices for high-temperature metallurgy and material recovery ♻️. Furthermore, he contributes as a technical reviewer for prestigious journals 📑, supporting the scientific community. Through sustained growth and academic excellence, Dr. Liao continues to shape the future of materials science and metallurgy 🌟.

Research Focus 🔍🤖

Dr. Jinfa Liao’s research focuses on metallurgical thermodynamics, particularly phase equilibrium studies in high-temperature slag systems 🔥, rare earth metallurgy 🧪, and innovative copper and iron smelting processes ⚙️. He specializes in analyzing multi-component oxide systems such as CaO–MgO–Al2O3–SiO2–TiO2 to improve blast furnace efficiency and material recovery ♻️. His work integrates experimental design and computational thermodynamics, often applying CALPHAD techniques to optimize smelting operations 💻. He also investigates the recovery and utilization of valuable elements from low-grade ores and industrial waste 🚯➡️🔋. In addition, Dr. Liao contributes to the development of advanced intermediate alloys for titanium-based systems and antibacterial copper-based materials 🧫. His focus lies at the intersection of fundamental research and real-world industrial application, providing environmentally sustainable and economically viable solutions 🌍💡. These themes make his research essential in addressing current challenges in metallurgical engineering, energy efficiency, and materials sustainability 🧠🔧.

Awards and Honors 🏆🎖️

  • 🏆 NSFC Youth Fund Recipient – Supported for foundational slag system research in vanadium-titanium magnetite smelting

  • 🎖️ High-Level Talent Start-up Fund Awardee – For phase equilibrium studies in rare earth molten salt systems

  • 💼 Principal Investigator of Major Industry Collaborations – With Dongying Fangyuan and Shougang Technical Institute

  • 📚 Recognized Journal Reviewer – For Metallurgical and Materials Transactions B, Ceramics International, and others

  • 🌟 Frequent International Conference Presenter – CALPHAD, TMS, and Lead & Zinc Conferences

  • 📝 Multiple Patent Holder – Innovations in alloy production, smelting technologies, and rare earth material applications

Publications & Citations 📚

📘 Exothermic and Slag Formation Behavior of Aluminothermic Reduction of Mo and V Oxides – Metals 📅 2025 – 🔁 Cited by: [X]

📘 Phase equilibria in the low-TiO2 part of CaO–MgO–SiO2–Al2O3–TiO2 system – Ceramics International 📅 2024 – 🔁 Cited by: [X]

📘 Distribution Behavior of Impurities during Hydrogen Reduction Ironmaking Process – Metals 📅 2024 – 🔁 Cited by: [X]

📘 Phase Equilibrium Study of Rare Earth Oxide–Fluoride Salt System: A Review – Metals 📅 2024 – 🔁 Cited by: [X]

📘 Phase Equilibrium Studies of CaO-MgO-Al2O3-SiO2 for Iron BF Slag: A Review – Metals 📅 2023 – 🔁 Cited by: [X]

📘 Enhanced Productivity of Bottom-Blowing Copper-Smelting Using Plume Eye – Metals 📅 2023 – 🔁 Cited by: [X]

📘 Phase Equilibria in CaO-MgO-Al2O3-SiO2 with Al2O3/SiO2 = 0.4 – Metals 📅 2023 – 🔁 Cited by: [X]

📘 Phase Equilibrium in CaO–SiO2–Al2O3–MgO (MgO/CaO = 0.2) – MMT-B 📅 2023 – 🔁 Cited by: [X]

📘 Desulfurization & Alkali Behavior in BF Slag System – Metals 📅 2023 – 🔁 Cited by: [X]

📘 Phase Equilibrium of “FeO”-SiO2-MgO-Al2O3-“Cr2O3” at Iron Saturation – MMT-B 📅 2021 – 🔁 Cited by: [X]

📘 Effects of Al2O3 and “Cr2O3” on FeO-MgO-SiO2 Phase Equilibria – CALPHAD 📅 2021 – 🔁 Cited by: [X]

🔍 Conclusion:

Dr. Jinfa Liao exemplifies the qualities of a best researcher: innovative, productive, collaborative, and impact-driven. His work not only advances academic understanding of phase equilibria and metallurgical reactions but also delivers practical solutions to real-world industrial challenges 🌐. With a strong publication record, leadership in major R&D projects, and a commitment to scientific excellence, he stands as a top-tier candidate for the Best Researcher Award. 🏆

Zhihua Sun | Environmental Chemistry| Best Researcher Award

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Mr. Zhihua Sun | Environmental Chemistry| Best Researcher Award

Associate Professor at College of Animal Science & Technology, Shihezi University , China .

🔬 Short Biography 🌿💊📚

Dr. Zhihua Sun is an Associate Professor and Department Head at the College of Animal Science & Technology, Shihezi University. He earned his Ph.D. in Biochemistry and Molecular Biology in 2020 and has since led eight research projects, published 61 peer‑reviewed articles, and filed eight patents (five granted) in veterinary drug formulations and diagnostics. As a council member of the Chinese Association of Animal Science & Veterinary Medicine and editorial board member for SCI‑indexed journals, Dr. Sun bridges academia and industry. His pioneering colloidal‑gold rapid diagnostic kit for brucellosis—commercialized for 3 million CNY—exemplifies his commitment to translational research and rural health development

🔍 Summary of Suitability:

Dr. Zhihua Sun exemplifies the qualities of a leading young researcher: a strong publication record, patents that translate into high‑impact diagnostics, and active roles in professional societies and editorial boards. His work on Brucella–host molecular interactions and rapid diagnostic technologies addresses urgent needs in animal and public health, particularly in rural settings.

PROFILE 

ORCID 

📘 Education

Dr. Zhihua Sun earned his Ph.D. in Biochemistry and Molecular Biology in 2020, demonstrating advanced expertise in molecular-level investigations of animal health. Prior to his doctoral studies, he completed both Bachelor’s and Master’s degrees (details available upon request) with strong academic performance and research components. His rigorous training has equipped him with deep theoretical knowledge and practical laboratory skills essential for pioneering work in veterinary pharmacology, toxicology, and diagnostic innovation.

Professional Experience

Since 2020, Dr. Sun has served as Associate Professor and Department Head at the College of Animal Science & Technology, Shihezi University, overseeing curriculum development and faculty mentorship. He is a Council Member of the Veterinary Pharmacology & Toxicology Branch of the Chinese Association of Animal Science and Veterinary Medicine and contributes as a Youth Editorial Board Member for the Journal of Shihezi University and as Guest Editor for the SCI-indexed journal Microorganisms. He has led eight research projects, guided two industry consultancy initiatives, and authored three technical standards adopted by the Xinjiang Production and Construction Corps.

Skills & Expertise 🛠️

Dr. Sun excels in biochemistry, molecular biology, and veterinary drug formulation. He has filed eight patents (five granted) for novel veterinary therapeutics and rapid-diagnostic devices. His proficiencies include network analysis of host–pathogen interactions, colloidal gold immunoassay development, and large-scale technology transfer. He is adept at project management, grant writing, and collaborative leadership—evident in his coordination of multidisciplinary teams across academia and industry to accelerate rural health solutions.

Research Focus 🔍🤖

Dr. Sun’s research centers on traditional Chinese veterinary medicine and sustainable resource utilization of animal manure. His landmark work elucidates the molecular mechanisms of Brucella–host interactions via LncRNA–mRNA regulatory networks, revealing key inflammatory signaling pathways. He has also developed rapid, sensitive, and cost‑effective colloidal gold diagnostic kits and new vaccine candidates for brucellosis, ensuring grassroots‑level applicability across serum, whole blood, plasma, and milk samples. His innovations directly address zoonotic disease control and livestock health.

Awards and Honors 🏆

  • Second Prize in Natural Science, Military‑Civilian Integration Commission, for his Brucella–host interaction study

  • Eight Patents Filed (five granted) for veterinary drug formulations and diagnostics

  • Four Technical Standards adopted by the Xinjiang Production and Construction Corps

  • Technology Transfer Success: 3 million CNY for colloidal gold brucellosis diagnostic kit

  • Editorial Appointments: Youth Editorial Board Member and Guest Editor roles recognize his scientific leadership and peer‑review expertise

Publications & Citations 📚

  1. Title: Study on the Optimization of Concrete Screeds in Zootechnical Farms
    Authors: Moldoveanu, Marta Ioana; Manea, Daniela Lucia; Jumate, Elena; Fechete, Radu; Tintisan, Maria Loredana; Siomin, Adrian Cristian
    Year: 2022

  2. Title: Archaeological Works in the Land of Lapus
    Authors: Moldoveanu, Marta Ioana; Popa, Paut; Manea, Daniela Lucia
    Year: 2019

🔍 Conclusion:

Dr. Sun is a compelling candidate for the Research for Best Researcher Award. His blend of innovative science, tangible technology transfer, and leadership within both academic and industry spheres meets—and exceeds—the award’s criteria for excellence, impact, and service. With targeted efforts to elevate his international presence and mentorship portfolio, he is poised to become a global leader in veterinary biomedical research

Zainab M. Almarhoon | Asymmetric synthesis | Best Researcher Award

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Prof. Zainab M. Almarhoon | Asymmetric synthesis | Best Researcher Award

Professor at King Saud University , Saudi Arabia.

🔬 Short Biography 🌿💊📚

Prof. Zainab Mohammed Abduallah Almarhoon 🇸🇦 is a distinguished Chemistry Professor at King Saud University 🏛️. With extensive expertise in heterocyclic compounds, nanomaterials, and metal-organic frameworks, she’s renowned for her research in green chemistry 🌿, environmental applications 🌍, and microwave-assisted synthesis ⚡. Fluent in both Arabic and English 🗣️, she brings a unique blend of scientific excellence and community engagement. Over the years, Prof. Zainab has played a pivotal role in teaching, research, and academic leadership, contributing significantly to Saudi Arabia’s scientific landscape. Her outstanding contributions have been recognized with prestigious awards 🏆 for excellence in both research and teaching. Beyond the lab and classroom, she actively serves on various academic committees, supports student development 👩‍🎓👨‍🎓, and promotes science through workshops and public outreach. Her commitment to innovation and sustainability makes her a respected figure in the global chemical sciences community 🌐.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Prof. Zainab is a seasoned academic and research scientist with over 20 years of progressive experience in chemistry, including synthetic organic chemistry, nanotechnology, green chemistry, and environmental applications. Her career has evolved from teaching assistant to full professor at King Saud University, showcasing her consistent commitment to education, research, and institutional development 📈. She has demonstrated expertise in the synthesis and characterization of heterocyclic compounds, metal-organic frameworks, and photocatalytic systems for environmental remediation 🌍. Her ability to blend innovation with societal impact highlights her suitability for top-tier research recognition.

📘 Education

Prof. Zainab Almarhoon earned her Ph.D. in Chemistry from King Saud University in 2014 🎓, after completing her Master’s (2007) from the same institution and her Bachelor’s in Chemistry at Imam Abdulrahman Bin Faisal University (2000). Her academic journey at King Saud University began as a Teaching Assistant (2010), and she steadily rose through the ranks to become a Professor in 2025 📈. With over a decade of experience in academia, she has delivered advanced chemistry courses and mentored numerous students 👩‍🏫. Her expertise spans synthetic organic chemistry, nanotechnology, and environmental science. She is deeply involved in laboratory instruction, curriculum development, and safety training 🧪. Her hands-on experience in spectroscopy, calorimetry, chromatography, and other analytical techniques has shaped her research and teaching. Her career reflects a commitment to lifelong learning and scientific advancement 🧠💼.

Professional Experience

Prof. Zainab actively pursues professional growth through conferences, training, and institutional roles 📚. She has attended global events such as the ACS National Meetings and International Green Chemistry & Engineering Conferences 🌎. Her hands-on training includes NMR spectroscopy 🧲, GC-MS, calorimetry, and thermal analysis 🔬. At King Saud University, she completed 20+ professional courses through the Deanship of Skills Development 🎓, enhancing her expertise in modern analytical methods and science education. As a committee member and coordinator for lab safety, public relations, and organic chemistry courses, she ensures quality education and safety compliance 🧯📘. Her engagement in student mentoring, community outreach, and reviewing scientific manuscripts reflects her all-rounded development as an educator and researcher 👩‍🔬. Her professional affiliations with organizations like ACS and MRS connect her with global scientific networks 🌐, ensuring that she remains at the forefront of innovations in chemical sciences 💡.

Research Focus 🔍🤖

Prof. Zainab’s research focuses on sustainable and innovative chemical processes 🧪. Her work centers around the synthesis and characterization of heterocyclic compounds, peptides, and nanoparticles 🔬, aiming for applications in pharmaceuticals and materials science. She is particularly engaged with metal-organic frameworks (MOFs) and their environmental uses, such as pollutant removal and water purification 💧🌿. Her expertise in green chemistry promotes eco-friendly synthesis methods and energy-efficient techniques like microwave-assisted reactions ⚡. Additionally, she explores the photocatalytic degradation of contaminants and natural product isolation for bioactive studies 🌱💊. Through her research leadership on projects like RGP-070 and RSPD2023/2024R603, she addresses real-world challenges using modern chemistry solutions 🌍. Prof. Zainab’s interdisciplinary approach merges synthetic chemistry, nanotechnology, and environmental science to develop sustainable materials and methods, reinforcing her role as a front-runner in applied chemical research 🌟.

Awards and Honors 🏆🎖️

  • 🏆 Qatif Achievement Award (2015)

  • 🧪 Excellence in Scientific Research, Science College (2023)

  • 👩‍🏫 Excellence in Teaching, Science College (2023)

Publications & Citations 📚

  • 🧪 A Simple, Efficient, and Eco‑Friendly Method for the Preparation of 3‑Substituted‑2,3‑dihydroquinazolin‑4(1H)‑one Derivatives (Molecules, 2019) – Cited ~ 30+ times 🌱

  • 🔬 Synthesis, X‑ray Structure, Conformational Analysis, and DFT Studies of a Giant s‑Triazine bis‑Schiff Base (Crystals, 2021) – Cited ~ 15+ times 🧩

  • 🧫 Nano‑sized transition metal complexes of Schiff base ligand based on 1‑aminoquinolin‑2(1H)‑one (Journal of Molecular Structure, 2020) – Cited ~ 10+ times ⚗️

  • 🍃 s‑Triazine: A Multidisciplinary and International Journey (Chemistry Proceedings, 2021) – Cited ~ 8+ times 🌐

  • 🔋 Synergistic Blends of Sodium Alginate and Pectin Biopolymer Hosts as Conducting Electrolytes for Electrochemical Applications (ACS Omega, 2024) – Cited ~ 5+ times ⚡

🔍 Conclusion:

Prof. Zainab exemplifies the ideal candidate for the Best Researcher Award. Her impactful research, leadership in scientific inquiry, dedication to green and sustainable chemistry, and active role in mentoring and community outreach set her apart as a role model in the global chemistry community. Her work not only advances the scientific frontier but also contributes meaningfully to real-world environmental and educational challenges.

Luciana Rocha Santos | Environmental Engineering | Best Researcher Award

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Mrs. Luciana Rocha Santos | Environmental Engineering | Best Researcher Award

PhD Candidate at FEEVALE University , Brazil.

🔬 Short Biography 🌿💊📚

Luciana R. Santos is a passionate and driven Ph.D. candidate in Environmental Quality 🌱, committed to advancing sustainable technologies. With a strong academic foundation in Chemical Engineering ⚗️ and a Master’s degree in Materials Technology 🧪, she has developed expertise in innovative solutions for environmental challenges. Her research delves into developing advanced coatings, functional biomaterials, and exploring pyrolysis processes for converting industrial waste into bio-oil ♻️. Luciana plays a vital role in R&D projects that intersect material science and green technology 🌍. She is known for her methodical approach, scientific curiosity, and commitment to reducing industrial environmental impacts through innovative material applications. Her academic journey and hands-on research experience position her as a rising expert in sustainable engineering and environmental science 🚀.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Luciana R. Santos exemplifies the qualities of a top-tier researcher, making her an excellent nominee for the Best Researcher Award. With a robust academic foundation—B.Sc. in Chemical Engineering, M.Sc. in Materials Technology, and current Ph.D. work in Environmental Quality—she has demonstrated academic excellence and a deep commitment to sustainable science. 🌱📚 Her research spans coatings, biomaterials, and waste-to-energy technologies, areas that have significant societal and environmental impact.

Luciana actively contributes to high-impact R&D projects and recently co-authored a peer-reviewed journal article titled “Strategic Techniques for Upgrading Bio‐Oil from Fast Pyrolysis: A Critical Review” in a reputable journal, showing her engagement with cutting-edge scientific advancements. 📘 Her interdisciplinary approach, combining engineering, environmental science, and materials technology, speaks to her versatility and innovation. She works with industrial waste pyrolysis to produce bio-oil, addressing global challenges like waste management and clean energy. ⚡♻️

📘 Education

Luciana R. Santos began her academic journey with a degree in Chemical Engineering ⚙️, laying the foundation for her expertise in industrial and environmental processes. Building on this, she earned a Master’s in Materials Technology 🧫, where she explored the development and application of advanced materials. Currently, she is pursuing her Ph.D. in Environmental Quality 🌿, focusing on sustainable innovations and eco-friendly solutions to modern challenges. Throughout her career, Luciana has been actively involved in R&D projects that integrate material science, sustainability, and engineering. Her practical experience includes working on cutting-edge technologies such as biomaterial development, high-performance coatings, and pyrolysis of industrial waste for bio-oil production 🔥. Her academic background and research experience make her a valuable contributor to multidisciplinary environmental initiatives 🧠.

Professional Experience

Luciana R. Santos has continually advanced her professional development through dedicated academic pursuits and impactful research involvement 🎓. Her transition from Chemical Engineering to Materials Technology and finally to Environmental Quality reflects her evolving focus toward sustainable development 🌍. By participating in interdisciplinary R&D projects, she has cultivated a deep understanding of material-environment interactions and their potential in circular economy models 🔄. Luciana has gained significant expertise in handling real-world challenges by developing biomaterials, protective coatings, and alternative energy solutions such as bio-oil from waste via pyrolysis 🔬. She frequently engages in academic conferences, workshops, and collaborative initiatives that foster innovation and scientific networking 🤝. Her professional path demonstrates a commitment to continual learning, applied research, and leadership in sustainability-focused material engineering 💡.

Research Focus 🔍🤖

Luciana R. Santos focuses her research on the intersection of materials science and environmental engineering 🌿. Her core areas include developing sustainable coatings, biomaterials for medical and environmental applications, and advanced waste-to-energy technologies 🔁. A significant portion of her work centers around the pyrolysis of industrial waste to produce bio-oil, contributing to renewable energy and waste valorization efforts ⚡. She explores how modified materials can improve environmental quality and extend the life of infrastructure through protective solutions 🛡️. Her multidisciplinary approach brings together chemistry, engineering, and environmental science to create practical innovations that reduce ecological footprints 🌱. Luciana’s work is aligned with the principles of green chemistry and the circular economy, targeting eco-efficient industrial practices. Her research contributes significantly to the sustainable development goals (SDGs), particularly those related to clean energy, responsible consumption, and climate action 🌎.

Awards and Honors 🏆🎖️

  • 🏆 Ph.D. Scholarship in Environmental Quality

  • 🥇 Master’s Research Fellowship in Materials Technology

  • 🎖️ Recognition for Excellence in Chemical Engineering Studies

  • 📜 Participation in National R&D Collaborative Projects

  • 🧪 Honored for Innovation in Pyrolysis and Bio-oil Production Research

Publications & Citations 📚

📘 Strategic Techniques for Upgrading Bio‐Oil from Fast Pyrolysis: A Critical ReviewBiofuels, Bioproducts and Biorefining 🛢️📄 | 🗓️ Published: 2025-05-08 | ✍️ Authors: Luciana R. Santos, Daniela R. Araujo, Marco A.S. Rodrigues | 🔗 DOI: 10.1002/bbb.2789 | 📊

🔍 Conclusion:

Luciana R. Santos is a highly deserving candidate for the Best Researcher Award. Her scientific rigor, impactful research, and commitment to sustainability position her as a forward-thinking leader in environmental and materials science. 🌍💡 Her contributions not only advance academic knowledge but also offer practical solutions to real-world environmental challenges. Awarding her would be a recognition of both her achievements and her potential to lead future innovations in sustainable technologies. 🚀👏

Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

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Prof. Jinhui Zhao| Environmental Chemistry| Best Researcher Award

Director of the Research Institute at Nanjing Tech University, China.

🔬 Short Biography 🌿💊📚

Dr. Jinhui Zhao is an Associate Professor at Nanjing Tech University specializing in environmental chemistry and water treatment technologies. With a Ph.D. in Environmental Engineering, he has published over 50 research articles, including 15 SCI-indexed papers, and holds 10 patents related to pollutant removal and sustainable water systems. His work focuses on the migration and transformation of contaminants in aquatic environments and the development of eco-friendly treatment methods. Dr. Zhao has led multiple national and industrial research projects and actively contributes to innovative solutions for global environmental challenges.

PROFILE 

ORCID 

SCOPUS 

🔍 Summary of Suitability:

Dr. Zhao Jinhui stands out as an applied environmental scientist with impactful research on water treatment technologies and pollutant migration. His work bridges environmental chemistry, public health, and sustainable engineering. His integration of theory with practical applications and industry relevance marks him as a leader in his field. With publications, patents, awards, and high-profile collaborations, he demonstrates a robust and balanced academic profile.

📘 Education

Professor Zhao Jinhui holds a solid academic foundation in environmental and chemical engineering sciences, which has guided his path into research and higher education. He has pursued advanced training in water environmental chemistry and related technologies, which laid the groundwork for his specialization in pollutant behavior and water resource management. His educational background also supports his active role in publishing professional books and developing technical standards in environmental science. This comprehensive academic journey has been instrumental in shaping his expertise in water treatment and sustainability.

Professional Experience

With over a decade of professional and academic experience, Professor Zhao serves as an Associate Professor at Nanjing Tech University. He has led five research projects and completed more than 60 consultancy and industry collaborations, particularly focusing on water treatment, reclaimed water utilization, and pollutant migration. Zhao’s practical expertise extends beyond academia, demonstrated through his leadership in large-scale projects such as those under China’s 863 Program. His innovations have translated into real-world applications, especially in the implementation of constructed wetland technologies for wastewater treatment and power generation, solidifying his role as a leader in applied environmental research.

Skills and Competencies

Zhao Jinhui’s key skills include water quality analysis, advanced water treatment technologies, pollutant migration modeling, and constructed wetlands optimization. His ability to bridge chemical engineering principles with biological systems sets him apart in environmental sustainability research. He also exhibits strong project management and consultancy skills, having led high-impact industry collaborations.

Research Focus 🔍🤖

Professor Zhao Jinhui’s research centers on water environmental chemistry, with a strong emphasis on sustainable water treatment technologies and pollutant behavior in aquatic systems. He investigates the recycling and reuse of reclaimed water and rainwater, aiming to improve water security and environmental protection. A major aspect of his work involves studying the migration and transformation of organic and inorganic pollutants during various treatment processes, including advanced oxidation and constructed wetlands. His interdisciplinary approach combines chemical, biological, and engineering techniques to enhance pollutant removal efficiency while promoting eco-friendly practices. Zhao’s research contributes significantly to water sustainability and green innovation.

Awards and Honors 🏆🎖️

Zhao received the Third Prize in Science and Technology from the China General Chamber of Commerce for his contributions to constructed wetlands for wastewater treatment and energy generation. His applied research has significantly influenced environmental engineering practices in China.

Publications & Citations 📚

  1. Title: Comparison of Field Infiltration Test Methods for Permeable Pavement: Toward a Further Easy and Accurate Method
    Journal: Clean – Soil, Air, Water
    DOI: 10.1002/clen.201900174
    Authors: Zhao, Jinhui
    Year: 2019

  2. Title: Water and energy saving potential by adopting pressure-reducing measures in high-rise building: A case analysis
    Journal: Building Services Engineering Research and Technology
    DOI: 10.1177/0143624417751056
    Authors: Zhao, Jinhui
    Year: 2018

  3. Title: A fancy eco-compatible wastewater treatment system: Green Bio-sorption Reactor
    Journal: Bioresource Technology
    DOI: 10.1016/j.biortech.2017.03.037
    Authors: Zhao, Y.; Liu, R.; Zhao, J.; Xu, L.; Sibille, C.
    Year: 2017

  4. Title: Advanced treatment of actual textile dye wastewater by Fenton-flocculation process
    Journal: Canadian Journal of Chemical Engineering
    DOI: 10.1002/cjce.22752
    Authors: Xiao, X.; Sun, Y.; Sun, W.; Shen, H.; Zheng, H.; Xu, Y.; Zhao, J.; Wu, H.; Liu, C.
    Year: 2017

  5. Title: Constructed wetland integrated microbial fuel cell system: Looking back, moving forward
    Journal: Water Science and Technology
    DOI: 10.2166/wst.2017.190
    Authors: Wang, Y.; Zhao, Y.; Xu, L.; Wang, W.; Doherty, L.; Tang, C.; Ren, B.; Zhao, J.
    Year: 2017

  6. Title: Embedding constructed wetland in sequencing batch reactor for enhancing nutrients removal: A comparative evaluation
    Journal: Journal of Environmental Management
    DOI: 10.1016/j.jenvman.2017.01.080
    Authors: Liu, R.; Zhao, Y.; Zhao, J.; Xu, L.; Sibille, C.
    Year: 2017

  7. Title: Agricultural runoff pollution control by a grassed swales coupled with wetland detention ponds system: A case study in Taihu Basin, China
    Journal: Environmental Science and Pollution Research
    DOI: 10.1007/s11356-016-6150-2
    Authors: Zhao, J.; Zhao, Y.; Zhao, X.; Jiang, C.
    Year: 2016

  8. Title: Highway runoff treatment by hybrid adsorptive media-baffled subsurface flow constructed wetland
    Journal: Ecological Engineering
    DOI: 10.1016/j.ecoleng.2016.02.020
    Authors: Zhao, J.; Zhao, Y.; Xu, Z.; Doherty, L.; Liu, R.
    Year: 2016

  9. Title: UV/TiO₂ photocatalytic disinfection of carbon-bacteria complexes in activated carbon-filtered water: Laboratory and pilot-scale investigation
    Journal: Journal of Environmental Science and Health, Part A: Toxic/Hazardous Substances and Environmental Engineering
    DOI: 10.1080/10934529.2015.1055155
    Authors: Zhao, J.H.; Chen, W.; Zhao, Y.; Liu, C.; Liu, R.
    Year: 2015

🔍 Conclusion:

Highly suitable for the Best Researcher Award. Dr. Zhao’s contributions in environmental chemistry and sustainable water systems have tangible societal benefits and scientific depth. Strategic international engagement and editorial roles would further amplify his already strong research trajectory.

Manuel Ángel González Rodríguez | Electrochemistry| Best Researcher Award

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Mr. Manuel Ángel González Rodríguez | Electrochemistry| Best Researcher Award

Estudiante investigador de doctorado at CITES, Spain.

🔬 Short Biography 🌿💊📚

Manuel Ángel González Rodríguez is a dedicated chemical engineer and predoctoral researcher at the University of Huelva, Spain. He holds a Bachelor’s degree in Chemistry and is completing his Master’s in Chemical Engineering, both with outstanding academic performance. Currently pursuing a Ph.D. in Industrial and Environmental Science and Technology, his research focuses on the design and optimization of AEM electrolytic cells for renewable hydrogen production. Manuel has contributed to various research projects in sustainable energy and nanomaterials, including work on biolubricants and hydrogen fuel cell integration for aerospace applications. He combines strong analytical skills with expertise in project management and laboratory methods. Passionate about sustainable innovation, he continues to advance clean energy technologies through academic and industry collaborations.

PROFILE 

ORCID 

🔍 Summary of Suitability:

Manuel Ángel González Rodríguez stands out as a highly promising young researcher in the field of chemical engineering and industrial environmental technologies. With a strong academic foundation—graduating with honors in both his undergraduate degree in Chemistry and his ongoing Master’s program in Chemical Engineering—he has consistently demonstrated academic excellence (GPA: 8.9/10 and 9.3/10 respectively). His research trajectory, particularly in green chemistry and hydrogen energy systems, positions him at the forefront of sustainable innovation in electrochemical technologies.

📘 Education

Manuel Ángel González Rodríguez holds a Bachelor’s Degree in Chemistry from the University of Huelva (2019–2023), graduating with an outstanding GPA of 8.9/10. His undergraduate thesis focused on the extraction of Cr(VI) from atmospheric particulate matter, with a final score of 9.9/10 (Honors). He is currently pursuing a Master’s Degree in Chemical Engineering at the same university (2023–2025), where he maintains a GPA of 9.3/10. His master’s thesis investigates chemical modification processes of vegetable oils using sulfur via various synthesis routes, achieving a 9.4/10. In parallel, Manuel is enrolled in a PhD program in Industrial and Environmental Science and Technology, where his research centers on optimizing the design of AEM electrolytic cells for renewable hydrogen production.

Professional Experience

Manuel has gained substantial practical experience in analytical and applied chemical research. During his undergraduate internship at EUROFINS Químico Onubense S.L.U. (Feb–Apr 2023), he conducted analytical determinations in water and soils using spectrophotometry, electrometry, and volumetric techniques. He further collaborated with the University of Huelva under a Santander-funded project (Jun–Aug 2023) to synthesize silica nanoparticles in cellulosic fibers for biolubricant development.

Skills and Competencies

Manuel demonstrates a solid command of project management, advanced Excel, and analytical laboratory techniques. With a B2 level of English, he effectively communicates in both academic and technical environments. His adaptability is reflected in his ability to tailor strategies to diverse project demands, while his results-driven mindset ensures the achievement of ambitious goals and high-performance standards.

Research Focus 🔍🤖

His current PhD research addresses the development and optimization of AEM (Anion Exchange Membrane) electrolytic cells aimed at sustainable hydrogen generation. This includes innovative cell design, integration of low-cost materials, and process scalability, aligning with global energy transition goals.

Awards and Honors 🏆🎖️

Throughout his academic journey, Manuel has consistently achieved top marks, including Honors in his Bachelor’s Thesis and high distinctions in his Master’s coursework and research, highlighting his commitment to academic excellence and innovation in sustainable chemical engineering.

Publications & Citations 📚

  • Determinación analítica de aguas, suelos agrícolas e industriales mediante técnicas espectrofotométricas, electrometría y volumetría
    González Rodríguez, M. Á. (2023)

  • Fabricación de nanopartículas de sílica en fibras celulósicas para el desarrollo de biolubricantes
    González Rodríguez, M. Á., & UHU Research Team (2023)

  • Diseño, experimentación y optimización de celdas electrolíticas tipo AEM para producción de hidrógeno renovable
    González Rodríguez, M. Á., et al. (2024)

  • Diseño e integración del sistema de pila de hidrógeno en banco de pruebas para plataforma aérea
    González Rodríguez, M. Á. (2025)

  • Optimización del diseño de celdas electrolíticas de tipo AEM para producción de hidrógeno a partir de fuentes renovables (en curso)
    González Rodríguez, M. Á. (desde 2025)

🔍 Conclusion:

Manuel Ángel González Rodríguez is highly suitable for the Best Researcher Award, particularly in the early-career category. His focused research on renewable hydrogen production, coupled with his academic merit, industry collaboration, and strong technical competencies, marks him as a rising star in sustainable electrochemical innovation. With increased dissemination of his work and global engagement, he is poised to become a leading figure in his field.

 

 

tugba demir caliskan | Polymer chemistry | Best Researcher Award

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Assist. Prof. Dr. tugba demir caliskan | Polymer chemistry | Best Researcher Award

Assistant Professor at Ankara University, Turkey.

🔬 Short Biography 🌿💊📚

Dr. Tugba Demir Caliskan 🌟 is a distinguished researcher in Chemical Engineering at Ankara University 🇹🇷. Her expertise spans the synthesis of polymeric films via PECVD 🧪, development of triboelectric nanogenerators ⚡, and creation of self-healing materials 🩹. She holds a Ph.D. 🎓 in Material Science and Engineering from Clemson University, USA 🇺🇸, where her research focused on oleophobic fluorinated polyester coatings. Previously, she earned her M.S. in Mechanical Engineering and B.S. in Chemical Engineering. Dr. Caliskan has extensive experience in polymer synthesis, surface modification, and the development of advanced composites 🧵. She has worked on DARPA-funded projects 💼, developed antifouling surfaces for medical devices 🏥, and contributed to the advancement of materials for water treatment and energy storage 🌊⚙️. Her interdisciplinary work bridges academic research and industrial applications, driving innovation in smart materials and sustainable technologies 🌍.

PROFILE 

ORCID 

GOOGLE SCHOLAR 

🔍 Summary of Suitability:

Dr. Tugba Demir Caliskan is highly suitable for the Best Researcher Award due to her extensive and impactful research contributions in the fields of polymer science, material engineering, nanotechnology, and surface chemistry. With a solid academic background (Ph.D. from Clemson University, USA) and diverse international postdoctoral experience, Dr. Caliskan has consistently demonstrated innovation, interdisciplinary expertise, and scientific excellence throughout her career.

📘 Education & Experience

Dr. Tugba Demir Caliskan’s academic journey began with a B.S. in Chemical Engineering from Izmir Institute of Technology 🇹🇷. She pursued her M.S. in Mechanical Engineering and Ph.D. in Materials Science and Engineering at Clemson University, USA 🇺🇸. Her doctoral research focused on synthesizing oleophobic fluorinated polyester coatings 🧴. Professionally, Dr. Caliskan gained extensive research experience at Clemson University, developing self-healing polymers 🧪, carbon fibers 🧵, and nanomaterials for sensors 🔬. She later contributed as a postdoc at Bilkent University and Ankara University, enhancing medical device surfaces 🏥, developing water treatment composites 💧, and creating energy storage materials ⚡. In 2024, she was appointed Assistant Professor at Ankara University, continuing her pioneering work in polymer chemistry, nanomaterials, and surface engineering 🌟. Her international experience bridges research, development, and application, positioning her as a leader in advanced material synthesis and characterization 🌍.

Professional Development 🚀📖

Throughout her career, Dr. Caliskan has developed exceptional skills in polymer processing and material characterization 🔬. She is proficient in advanced techniques such as ATRP, PECVD, and controlled radical polymerization 🧪. Her hands-on expertise covers a wide array of instruments including NMR, SEM, TEM, AFM, FTIR, and XRD 📊. Dr. Caliskan excels in managing complex research projects, mentoring students 👩‍🎓, and leading interdisciplinary teams 🧑‍🤝‍🧑. She has also taught numerous university courses in organic chemistry, petroleum technology, and chemical engineering labs 📚. Actively participating in international conferences 🌐, she has presented her work globally, fostering collaborations and advancing her field. Dr. Caliskan’s professional growth is marked by her continuous learning, ability to adapt cutting-edge technologies, and dedication to translating research into practical solutions that address real-world challenges 🌍. Her career exemplifies a perfect blend of academic excellence and industrial relevance 🚀.

Research Focus 🔍🤖

Dr. Caliskan’s research revolves around advanced polymer synthesis and surface engineering 🧪. She specializes in self-healing materials 🩹, triboelectric nanogenerators ⚡, oleophobic and hydrophobic coatings 🌊, and stimuli-responsive polymers 🔄. A significant part of her work focuses on fluorinated polymers for water and oil repellency, creating sustainable alternatives to long-chain perfluoroalkyl substances 🌱. She also develops functional materials for medical devices 🏥, such as antifouling surfaces to prevent biofouling. Her expertise extends to carbon dot composites for water treatment 💧, nanomechanical sensors for gas detection 🧯, and advanced composite materials for aerospace and automotive industries ✈️🚗. By combining polymer chemistry, nanotechnology, and material science, Dr. Caliskan addresses critical challenges in energy storage ⚙️, environmental protection 🌍, and healthcare innovation ❤️‍🩹. Her work is highly interdisciplinary, merging chemistry, engineering, and applied sciences to push the boundaries of smart and functional materials 📈.

Awards and Honors 🏆🎖️

  • 🎓 Awarded Turkish Ministry of Education Scholarship for graduate studies in the USA (2007)

  • 🧪 DARPA-funded research projects on advanced carbon fibers and nanocomposites

  • 🌟 Multiple international conference presentations at ACS and other global events

  • 📖 Numerous peer-reviewed journal publications in top materials science and polymer journals

  • 🏅 Recognition for contributing to pioneering research on self-healing polymers and advanced coatings

Publications & Citations 📚

🔬 Key-and-lock commodity self-healing copolymers — M.W. Urban et al., Science 362 (6411), 220-225 (2018) 📅 — Cited by: 341 📖 🔧
💧 Toward a long-chain perfluoroalkyl replacement: Water and oil repellency of polyethylene terephthalate (PET) films modified with perfluoropolyether-based polyesters — T. Demir et al., ACS Applied Materials & Interfaces 9 (28), 24318-24330 (2017) 📅 — Cited by: 29 📖 🧪
🧴 Highly Oil-Repellent Thermoplastic Boundaries via Surface Delivery of CF3 Groups by Molecular Bottlebrush Additives — L. Wei et al., ACS Applied Materials & Interfaces 12 (34), 38626-38637 (2020) 📅 — Cited by: 25 📖 💡
🧪 Micro-cantilever sensors for monitoring carbon monoxide concentration in fuel cells — T.D. Caliskan et al., Journal of Micromechanics and Microengineering 30 (4), 045005 (2020) 📅 — Cited by: 18 📖 🔬
⚗️ Attainment of water and oil repellency for engineering thermoplastics without long-chain perfluoroalkyls: Perfluoropolyether-based triblock polyester additives — L. Wei et al., Langmuir 34 (43), 12934-12946 (2018) 📅 — Cited by: 14 📖 🌊
🏥 A brief report on managing infected nonunion of a high tibial osteotomy in two stages: a case series involving seven knees — V. Karatosun et al., J Bone & Joint Surgery Br 93 (7), 904-906 (2011) 📅 — Cited by: 13 📖 🦴
🧴 Perfluoropolyether-based oleophobic additives: Influence of molecular weight distribution on wettability of polyethylene terephthalate films — T.D. Caliskan et al., Journal of Fluorine Chemistry 244, 109747 (2021) 📅 — Cited by: 10 📖 💦
🧪 Effect of number of –CF3 groups in tails of polyester on surface wettability of coatings: Synthesis and characterization of PFPE based polyesters with three –CF3 groups in tails — T.D. Caliskan et al., Journal of Polymer Research 27 (5), 128 (2020) 📅 — Cited by: 8 📖 🧬
🌊 Toward the Replacement of Long-Chain Perfluoroalkyl Compounds: Perfluoropolyether-Based Low Surface Energy Grafted Nanocoatings — T. Demir Caliskan et al., ACS Applied Polymer Materials 4 (2), 980-986 (2022) 📅 — Cited by: 7 📖 🔧
🎓 Synthesis and characterization of oleophobic fluorinated polyester films — T. Demir, Clemson University Dissertation (2015) 📅 — Cited by: 4 📖 🎯
🌿 Towards a long-chain perfluoroalkyl replacement: Water and oil repellent perfluoropolyether-based polyurethane oligomers — L. Wei et al., Polymers 13 (7), 1128 (2021) 📅 — Cited by: 3 📖 🧫

🔍 Conclusion:

Dr. Tugba Demir Caliskan exemplifies the qualities of a Best Researcher Award recipient through her continuous pursuit of scientific advancement, cross-disciplinary innovation, and real-world problem-solving. Her research not only advances fundamental science but also delivers practical solutions in healthcare, energy, and environmental sustainability. Her global academic presence, cutting-edge publications, and contributions to both academic and industrial sectors make her an outstanding candidate for this prestigious recognition.

 

 

 

 

 

 

Ayman Mohamed Hassan Ibrahim | Mineral Processing Engineering | Best Researcher Award

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Assist. Prof. Dr. Ayman Mohamed Hassan Ibrahim | Mineral Processing Engineering | Best Researcher Award

Assistant Professor at University of Nyala, Sudan.

🔬 Short Biography 🌿💊📚

Ayman Mohamed Hassan Ibrahim 🌍 is an Assistant Professor at the University of Nyala, passionately contributing to the field of mineral processing engineering 🏭. With over 9️⃣ years of rich research experience across Chinese universities 🇨🇳 and enterprises, Dr. Ibrahim has excelled in conducting independent research, publishing extensively in top-tier journals 📚, and addressing real-world challenges in mineral processing through innovative methodologies like flotation and leaching ⚙️💧. His work on sulfurization-assisted flotation for copper oxide minerals offers groundbreaking insights and practical advancements 🌟. Ayman’s dedication to academic excellence is evident through his impressive publication record of 9 SCI-indexed and 1 EI-indexed journal articles 📖✨. Beyond his research, he remains deeply committed to enhancing sustainable and efficient practices within the mineral extraction sector 🌱⚒️. Dr. Ibrahim’s expertise, passion, and global collaborations continue to drive impactful scientific contributions 🧪🔧.

PROFILE 

GOOGLE SCHOLAR 

🔍 Summary of Suitability:

Dr. Ayman Mohamed Hassan Ibrahim is highly suitable for the Best Researcher Award 🎯. With more than 9 years of active research experience in the field of Mineral Processing Engineering ⚙️, Dr. Ibrahim has consistently demonstrated a strong commitment to advancing scientific knowledge and addressing real-world industrial challenges. His expertise spans across key processes like flotation, leaching, and sulfurization-assisted flotation of copper oxide minerals 🧪🔬. His international experience in Chinese universities 🌏 has broadened his research scope and enriched his scientific contributions.

📘 Education & Experience

Ayman Mohamed Hassan Ibrahim 🎓 has built an impressive academic and professional journey over more than 9️⃣ years. He completed his advanced studies and training in mineral processing engineering ⚙️💎, focusing on cutting-edge extraction and processing techniques. His professional experience spans both academia and industry within Chinese universities 🇨🇳, where he contributed significantly to practical and theoretical advancements. Throughout his career, Dr. Ibrahim has demonstrated expertise in independent research, leading projects that address critical mineral processing challenges 🚀🧪. He has applied his knowledge in diverse projects utilizing flotation and leaching methodologies, enhancing efficiency and sustainability 🌿⚒️. His extensive publication record in reputable SCI and EI journals 📚 underlines his commitment to academic excellence and knowledge dissemination 🌐. This blend of academic rigor and practical experience positions Dr. Ibrahim as a forward-thinking researcher advancing the global mineral processing landscape 🌍🔬.

Professional Development 🚀📖

Throughout his professional development, Ayman Mohamed Hassan Ibrahim 🚀 has continually expanded his expertise in mineral processing engineering ⚙️. Actively engaged in research for over 9️⃣ years, he has skillfully navigated diverse roles within academia and industry 🏢🎓. His ability to conduct independent research, publish in high-impact journals 📊📚, and lead innovative projects demonstrates his commitment to continuous growth and excellence 🌟. He has sharpened his skills in flotation, leaching, and sulfurization-assisted flotation of copper oxide minerals 🧪⚒️, contributing meaningful solutions to complex industrial challenges 🌱. Although he has not pursued editorial appointments or professional memberships yet, his ongoing research, strong citation index, and collaborative engagements reflect his proactive approach to professional advancement 📈🤝. By bridging academic knowledge with practical applications, Dr. Ibrahim continues to evolve as a dynamic contributor to the mineral processing sector 🌍🔧.

Research Focus 🔍🤖

Ayman Mohamed Hassan Ibrahim’s primary research focus 🔬 lies in Mineral Processing Engineering ⚙️, particularly on the extraction and processing of valuable minerals 🏭💎. His work emphasizes innovative techniques like flotation and leaching 🧪💧, crucial for the efficient recovery of copper oxide minerals. A significant part of his research addresses the sulfurization mechanism, enhancing the flotation process to improve yield and sustainability 🌿⚒️. His studies contribute valuable insights that advance both the scientific understanding and practical application of mineral extraction methods 🌐🌟. With the increasing demand for sustainable and environmentally friendly extraction processes 🌱, Dr. Ibrahim’s work plays a vital role in optimizing mineral processing operations while minimizing environmental impact 🌍🛡️. His contributions open avenues for future developments in resource utilization, waste reduction, and advanced processing technologies 🏞️🔧. Overall, his research stands at the intersection of innovation, sustainability, and industrial applicability 🚀.

Awards and Honors 🏆🎖️

  • 🏅 Award Category Preference: Best Researcher Award

  • 📈 9 SCI-indexed journal publications

  • 📊 1 EI-indexed journal publication

  • 🎯 Citation Index: h-index of 4

  • 🔬 Over 9 years of research experience in mineral processing

  • 🌍 International research experience across Chinese universities and enterprises

Publications & Citations 📚

📄 Effect of pre-oxidation on copper-lead bulk concentrate flotation separation with sodium polyacrylate as galena depressantSeparation and Purification Technology 304, 122276 (2023) — 📊 Cited by: 24 🔬
📄 Effect of lead ions on accidental adsorption of Calcium Lignosulphonate on chalcopyrite surfaceJournal of Molecular Liquids 378, 121564 (2023) — 📊 Cited by: 10 🔬
📄 Effect of ammonium sulfide on sulfidization flotation of malachiteMinerals 12 (10), 1193 (2022) — 📊 Cited by: 8 🔬
📄 Improved activation of malachite sulfurization flotation by thiourea’s (CS (NH2)2): Performance and mechanism studyColloids and Surfaces A 705, 135643 (2025) — 📊 Cited by: 2 🔬
📄 Role of ammonium phosphate in improving the physical characteristics of malachite sulfidation flotationPhysicochemical Problems of Mineral Processing 59 (2023) — 📊 Cited by: 2 🔬
📄 Comparative Analysis of Lead Ions and Ammonium Salts in Malachite Sulfurization-Assisted Flotation Based on Surface Layer DurabilityMetals 15 (6), 601 (2025) — 📊 Cited by: 0 🔬
📄 Effect of sodium diethyldithiocarbamate (DDTC) and xanthate collaborative collection in malachite sulfurization flotation: Enhancement and mechanismsPhysicochemical Problems of Mineral Processing 62 (2), 203078 (2025) — 📊 Cited by: 0 🔬
📄 J Cai, X Jia, Y Ma, B Pei, AM Ibrahim, C Su, P Shen, D LiuMinerals Engineering 188, 107815 (2022) — 📊 Cited by: 14 🔬

🔍 Conclusion:

Dr. Ayman Mohamed Hassan Ibrahim exemplifies the qualities of a distinguished researcher 🌟. His innovative approaches, impactful publications, and dedication to solving both theoretical and applied problems in mineral processing make him an outstanding candidate for the Best Researcher Award 🏅. Recognizing his work would not only honor his achievements but also encourage continued advancement in sustainable mineral processing technologies 🌱⚒️.