Liangjun Chen | Metallurgical | Best Researcher Award

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Dr. Liangjun Chen | Metallurgical | Best Researcher Award

Lecturer at School of Metallurgical Engineering, Anhui University of Technology, China.

Dr. Liangjun Chen is a distinguished researcher and lecturer at the School of Metallurgical Engineering, Anhui University of Technology. With a Ph.D. from the University of Science and Technology Beijing and the University of Toronto, he has dedicated his career to advancing intelligent metallurgical processes. His expertise spans AI-driven process optimization, solid waste utilization, and industrial automation. Over the years, Dr. Chen has made significant contributions to modern metallurgical engineering, publishing more than 23 SCI-indexed papers and securing prestigious research funding, including the National Natural Science Foundation (Youth Program). His research focuses on intelligent process control in steel manufacturing, aiming to enhance efficiency and sustainability. In recognition of his groundbreaking work, he has received multiple accolades, including a Bronze Award in the Anhui Postdoctoral Innovation and Entrepreneurship Competition. Additionally, he holds 12 patents, five of which have been authorized. His collaborations with leading industry players, such as Baosteel and Jiangsu Yonggang, reinforce his role as a pioneer in modern metallurgical engineering, bridging academic research with practical industrial applications.

Professional Profile

Sci Profile

ORCID

Education 🎓

Dr. Liangjun Chen pursued his Ph.D. at the University of Science and Technology Beijing in collaboration with the University of Toronto. His academic journey was marked by intensive research in metallurgical engineering, focusing on optimizing sintering processes, intelligent process control, and sustainable metallurgical practices. Throughout his doctoral studies, he worked on AI-driven industrial process innovations that have since become integral to steel manufacturing. His studies provided him with a strong foundation in metallurgy, computational modeling, and automation, equipping him with the knowledge necessary to solve critical challenges in industrial metallurgy. His interdisciplinary approach allowed him to combine theoretical knowledge with practical applications, making his research highly relevant to both academia and industry. His dedication to metallurgical research has led to significant advancements in process efficiency and waste reduction, reinforcing his reputation as a forward-thinking scientist in the field.

Work Experience 💼

Dr. Chen has accumulated extensive experience in metallurgical engineering through both academic and industry-focused research. Currently, he serves as a lecturer at Anhui University of Technology, where he teaches metallurgical engineering while actively engaging in research projects. Prior to his current role, he completed a postdoctoral fellowship at the same institution, where he played a key role in multiple industry-sponsored research initiatives. His work has led to groundbreaking advancements in sintering efficiency, AI-driven industrial automation, and the comprehensive utilization of metallurgical solid waste. Additionally, Dr. Chen has collaborated with leading steel manufacturers, including Baosteel and Shandong Nuode Energy, applying his research findings to real-world industrial settings. Beyond academia, he has contributed to industrial consulting, providing expertise in optimizing steel manufacturing processes, improving fuel consumption efficiency, and reducing emissions. His work continues to have a profound impact on the field, bridging theoretical research with practical applications in metallurgy.

Research Interests 🔬

Dr. Chen’s research primarily focuses on intelligent and informatized metallurgical processes, leveraging artificial intelligence to optimize steel manufacturing and industrial automation. His work is centered on developing AI-driven process control systems to improve sintering efficiency, reduce energy consumption, and enhance the comprehensive utilization of metallurgical solid waste. By integrating advanced modeling techniques, his research contributes to smart manufacturing, predictive analytics, and real-time process monitoring. His studies in sustainable metallurgy aim to reduce industrial emissions and enhance waste recycling in steel production. A key aspect of his research is the development of intelligent sintering leak detection and steel slag recycling technologies, which significantly improve environmental sustainability and cost-effectiveness in metallurgical processes. His work not only advances theoretical knowledge but also has direct industrial applications, bridging the gap between scientific research and real-world metallurgical innovations.

Awards & Achievements 🏆

Dr. Chen’s innovative contributions to metallurgical engineering have earned him several prestigious awards and honors. He won the Bronze Award in the Anhui Postdoctoral Innovation and Entrepreneurship Competition, highlighting his ability to translate academic research into industrial innovations. His research excellence has been further recognized through a National Natural Science Foundation (Youth Program) Grant, which supports his cutting-edge investigations into intelligent process control and metallurgical waste management. He also received the Silver Prize at the Metallurgical Innovation Forum for his advancements in AI-driven sintering process optimization. As a researcher, Dr. Chen has successfully led eight industry-sponsored projects, securing funding and industry partnerships that have enhanced metallurgical manufacturing efficiency. Additionally, he has been awarded 12 patents, five of which have been officially authorized, further demonstrating his commitment to innovation. His expertise is widely recognized, and he serves as a Youth Editorial Board Member of Sintering and Pelletizing, as well as a reviewer for Ironmaking & Steelmaking and Steel Research International.

Conclusion

Dr. Liangjun Chen is a strong candidate for the Best Researcher Award due to his outstanding contributions to metallurgical engineering, extensive industry collaborations, and innovative research in AI-driven process optimization. While he has already demonstrated excellence in research, further efforts in increasing citations, professional memberships, and international outreach could further strengthen his candidacy. His contributions significantly impact both academia and industry, making him well-suited for this prestigious recognition.

Top Noted Publications 📚

“Research progress on prediction of FeO content in sinter based on intelligent algorithm”

Authors: Xin-Yu Zhang, Da-Lin Xiong, Meng Xie, Liang-Jun Chen, Hong-Ming Long, Alexander McLean

Year: 2025

“Development and application of an intelligent thermal state monitoring system for sintering machine tails based on CNN–LSTM hybrid neural networks”

Authors: Da-Lin Xiong, Xin-Yu Zhang, Zheng-Wei Yu, Xue-Feng Zhang, Hong-Ming Long, Liang-Jun Chen

Year: 2024

“A Predictive Model for Sintering Ignition Temperature Based on a CNN-LSTM Neural Network with an Attention Mechanism”

Authors: Da-Lin Xiong, Hou-Yin Ning, Meng Xie, Liang-Jun Chen, Zheng-Wei Yu, Hong-Ming Long

Year: 2024

“Dephosphorization of Hot Metal Containing High Phosphorus Using F-free CaO–SiO₂–Al₂O₃–Fe₂O₃ Slag”

Authors: Haimeng Xue, Jie Li, Yunjin Xia, Yong Wan, Liangjun Chen, Changji Lv

Year: 2021

“Mechanism of Phosphorus Enrichment in Dephosphorization Slag Produced Using the Technology of Integrating Dephosphorization and Decarburization”

Authors: Haimeng Xue, Jie Li, Yunjin Xia, Yong Wan, Liangjun Chen, Changji Lv

Year: 2021

“A New Method for Plasticization of Inclusions in Saw-Wire Steel by NaF Addition”

Authors: Liangjun Chen, Yong Wan, Jie Li, Weiqing Chen, Yindong Yang, Alexander McLean

Year: 2020

“Effect of Final Electromagnetic Stirring Parameters on Central Cross-Sectional Carbon Concentration Distribution of High-Carbon Square Billet”

Authors: Yong Wan, Menghua Li, Liangjun Chen, Jie Li, Hongbo Pan, Wei Zhong

Year: 2019

“Refractory/steel/inclusion interactions in Al-deoxidised valve spring steel treated with Na₂CO₃”

Authors: Liangjun Chen, Weiqing Chen, Wei Yan, Yindong Yang, Alexander McLean

Year: 2019

“Effects of K₂CO₃ Addition on Inclusions in High-Carbon Steel for Saw Wire”

Authors: Liangjun Chen, Weiqing Chen, Yang Hu, Zhaoping Chen, Yingtie Xu, Wei Yan

Year: 2018

Lamiaa Mohamed | Advanced materials | Best Researcher Award

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Prof. Lamiaa Mohamed | Advanced materials | Best Researcher Award

Associate professor at Cairo University, Faculty of Engineering, Egypt.

Associate Prof. Lamia Zaky Mohamed is a distinguished metallurgical engineer specializing in materials science and corrosion engineering. She has been an integral part of Cairo University, where she has progressed through various academic roles, currently serving as an Associate Professor. With a strong foundation in metallurgical research, she has contributed significantly to the study of alloy development, corrosion resistance, and advanced materials. Dr. Mohamed has authored multiple high-impact publications in prestigious journals and has collaborated on innovative projects aimed at improving industrial and environmental applications. Her research extends to nanostructured materials, electrochemical behavior, and sustainable energy applications. She has been recognized with multiple academic awards from Cairo University and actively participates in accreditation committees, laboratory research, and curriculum development. Dr. Mohamed is also involved in international collaborations and continues to push the boundaries of metallurgical engineering through cutting-edge research and technological advancements.

Professional Profile

Scopus Profile

Goolge Scholar

Education 🎓

Dr. Lamia Zaky Mohamed has built an extensive academic foundation in metallurgical engineering at Cairo University. She earned her B.Sc. in Metallurgical Engineering (2003), where she developed a strong interest in materials processing and properties. Advancing her expertise, she obtained an M.Sc. in Metallurgical Engineering (2010), focusing on extraction techniques and material behavior. She then pursued a Ph.D. in Metallurgical Engineering (2017), where her research delved into alloy development and corrosion resistance mechanisms. Her academic journey culminated in her promotion to Associate Professor (2023), solidifying her expertise in metallurgical sciences. Throughout her studies, Dr. Mohamed excelled in advanced metallurgy, industrial applications, and sustainable material innovations. She has consistently integrated her academic knowledge with practical applications, contributing to multiple research projects, mentoring students, and shaping the future of metallurgical education at Cairo University.

Work Experience 💼

Dr. Mohamed has a robust academic and professional career, primarily centered around teaching, research, and project leadership. She began her journey as a Teaching Assistant at Modern Academy (2003-2005) before joining Cairo University’s Faculty of Engineering (2005). She served as a Teaching Assistant (2005-2017), later advancing to Assistant Professor (2017-2023), and is currently an Associate Professor (2023-present). She has taught numerous undergraduate and postgraduate courses, including Iron and Steelmaking, Non-Ferrous Metal Extraction, Physical Metallurgy, and Industrial Legislation. In addition to her teaching responsibilities, she has been actively involved in research projects, contributing to advancements in solar energy absorption, lithium-ion battery electrodes, and nanomaterials. She also plays a significant role in Cairo University’s academic accreditation and laboratory research initiatives. Her vast experience extends to quality assurance, mechanical testing, and materials characterization, making her a key figure in the field of metallurgical engineering.

Research Interests 🔬

Dr. Mohamed’s research is centered on materials engineering, corrosion resistance, nanotechnology, and advanced alloy development. She specializes in investigating the mechanical and electrochemical properties of metals and alloys, with a focus on enhancing their durability, performance, and environmental sustainability. Her work on nanostructured composite electrodes for lithium-ion batteries has contributed to advancements in energy storage technology. Additionally, she explores high-temperature oxidation behaviors in alloys, developing new coatings to enhance their resistance in extreme environments. Her research also includes biocompatible materials for medical applications, focusing on improving the corrosion resistance of implants and biomedical alloys. Through interdisciplinary collaborations, she integrates nanomaterials, composite coatings, and green inhibitors into metallurgical applications, pushing the boundaries of innovation in materials science.

Awards & Achievements 🏆

Dr. Mohamed has been recognized with multiple academic excellence awards for her outstanding contributions to metallurgical engineering. She received the Cairo University Faculty of Engineering Award for B.Sc. (2004), M.Sc. (2011), and Ph.D. (2017), highlighting her exceptional academic performance and research achievements. These accolades underscore her commitment to advancing metallurgical research and education. In addition to her institutional awards, she has played a pivotal role in leading research projects that have garnered national and international recognition. Her work in corrosion-resistant alloys, advanced materials, and energy-efficient technologies has positioned her as a thought leader in her field. Beyond her individual achievements, Dr. Mohamed’s contributions to curriculum development, accreditation processes, and mentorship have further cemented her reputation as a distinguished academic and researcher in metallurgical engineering.

Conclusion

Associate Prof. Lamia Zaky Mohamed is a highly accomplished researcher with a strong publication record, leadership in metallurgical engineering research, and contributions to academic excellence. Her expertise in corrosion-resistant materials, energy storage, and alloy development aligns well with the criteria for the Best Researcher Award. Expanding international collaborations, enhancing citation impact, and pursuing patents could further strengthen her case for the award. Overall, she is a strong candidate for this recognition.0

Top Noted Publications 📚

Microstructure and corrosion behavior of FeNiCoCrCu and FeNiCoCrMn high entropy alloys manufactured by powder metallurgy in different acid media

Authors: Shimaa A. Abolkassem, Lamiaa Z. Mohamed, Ghalia A. Gaber, Omayma A. Elkady

Publication Year: 2021

Citations: 29

Enhancement of corrosion protection of AISI 201 austenitic stainless steel in acidic chloride solutions by Ce-doped TiO₂ coating

Authors: Ghalia A. Gaber, Lamiaa Z. Mohamed, Antti Järvenpää, Atef Hamada

Publication Year: 2021

Citations: 23

Effect of sodium tungstate on the corrosion behavior of Fe-base alloy in H₂SO₄ solution

Authors: Ghalia A. Gaber, Hafiz A. Aly, Lamiaa Z. Mohamed

Publication Year: 2020

Citations: 22

Corrosion characteristics of 304 stainless steel in sodium chloride and sulfuric acid solutions

Authors: Aliaa Abdelfatah, Ahmed M. Raslan, Lamiaa Z. Mohamed

Publication Year: 2022

Citations: 17

Experimental and theoretical studies of 2-cyano-N-(4-morpholinobenzylidene) acetohydrazide as corrosion inhibitor for galvanized steel and 304 stainless steel in 1M H₂SO₄ solution

Authors: Ghalia A. Gaber, Samar Hosny, Lamiaa Z. Mohamed

Publication Year: 2021

Citations: 17

Corrosion inhibition of two Schiff base complexes on the mild steel in 1M HCl solution

Authors: Rania H. Taha, Ghalia A. Gaber, Lamiaa Z. Mohamed, Wafaa A. Ghanem

Publication Year: 2019

Citations: 17

Fabrication, Characterization, and Corrosion Behavior of a New Cu₄₀Mn₂₅Al₂₀Fe₅Co₅Ni₅ High-Entropy Alloy in HNO₃ Solution

Authors: Hafiz A. Aly, Khaled A. Abdelghafar, Ghalia A. Gaber, Lamiaa Z. Mohamed

Publication Year: 2021

Citations: 14

Oxidation characteristics of porous-nickel prepared by powder metallurgy and cast-nickel at 1273 K in air for total oxidation time of 100 h

Authors: Lamiaa Z. Mohamed, Wafaa A. Ghanem, Omayma A. El Kady, Mohamed M. Lotfy, Hafiz A. Ahmed, Fawzi A. Elrefaie

Publication Year: 2017

Citations: 13

ANOVA and DOE of comparative studies of Cu/Mn effect on corrosion features of CoCrFeNi high entropy alloy immersed in different acidic media

Authors: Ghalia A. Gaber, Shimaa A. Abolkassem, Omayma A. Elkady, Mahmoud M. Tash, Lamiaa Z. Mohamed

Publication Year: 2022

Seda Karayünlü Bozbaş | Materials Award | Women Researcher Award

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Prof. Dr. Seda Karayünlü Bozbaş | Materials Award | Women Researcher Award

Associate Professor at Kocaeli University, Turkey

Prof. Dr. Seda Karayünlü Bozbaş is a distinguished academic and accomplished researcher in the field of chemistry. With a strong educational foundation from Kocaeli University, where she completed both her Bachelor’s and Master’s studies in Chemistry, she further advanced her expertise through doctoral research focused on environmental trace element analysis. Throughout her career, she has consistently demonstrated excellence in teaching, research, and academic administration. As an Associate Professor at Kocaeli University’s Faculty of Science and Letters, she has contributed significantly to the development of innovative analytical methods and chemometric techniques. Her commitment to education is reflected in her diverse teaching portfolio, supervising numerous master’s theses and mentoring emerging scholars. In addition, her active involvement in quality commissions and academic committees underscores her leadership and dedication to advancing scientific research. Prof. Dr. Karayünlü Bozbaş continues to inspire students and colleagues alike with her passion for chemistry and pursuit of academic excellence.

professional profiles📖

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Orcid

Education 🎓

Prof. Dr. Seda Karayünlü Bozbaş received her foundational education in chemistry at Kocaeli University, where she earned both her Bachelor’s degree and a subsequent two-year Master’s degree from the Faculty of Science and Letters, Department of Chemistry. Her academic journey laid a robust groundwork in chemical principles and analytical techniques. Advancing her expertise further, she completed her doctoral research in 2008, producing a thesis titled “Method Development and Various Applications for Trace Element Analysis in Environmental Samples.” In parallel, she has actively pursued professional development through a wide array of certificates, courses, and trainings. Notable among these are TÜBİTAK’s Applied Project Writing Workshop, chemometric programs at Ankara University, and quality management trainings organized by TÜRKAK. This extensive educational background and commitment to continuous learning have honed her theoretical foundation and practical skills, establishing her as a knowledgeable and forward-thinking expert in analytical chemistry and related scientific disciplines with utmost excellence.

work Experience💼

Prof. Dr. Seda Karayünlü Bozbaş has built a distinguished academic career spanning over two decades at Kocaeli University. Beginning as a Research Assistant in 1999, she quickly advanced to a Research Assistant Doctor position before assuming the role of Assistant Professor in 2010. Over the years, she has demonstrated exceptional commitment as an educator, researcher, and mentor, delivering a wide range of courses in analytical and instrumental chemistry. Her progressive academic appointments, including her current position as Associate Professor since 2017, reflect her leadership and expertise. In addition to her teaching responsibilities, she has actively contributed to academic administration by serving on quality commissions, coordinating programs, and supporting initiatives for disabled students. Her dynamic involvement in academic governance and curriculum development underscores her dedication to fostering an innovative learning environment and advancing scientific research in chemistry. Her extensive experience enriches both academic excellence and research innovation across all levels remarkably.

Awards and Honors

Prof. Dr. Seda Karayünlü Bozbaş has earned widespread recognition for her exceptional contributions to the field of chemistry and analytical science. Her academic journey is distinguished by numerous honors reflecting her excellence in research, teaching, and service. Appointed as an Associate Professor and entrusted with key administrative roles, she serves on the Rectorate Quality Commission and the Disabled Students Commission, demonstrating her commitment to academic integrity and inclusivity. Additionally, her role as Program Coordinator and former Vice Chair of her department underscores her leadership in curriculum development and scholarly collaboration. Esteemed by peers, she has been selected as a jury member for academic appointments, doctoral qualifying examinations, and thesis defenses. These accolades and responsibilities attest to her professional excellence and the high regard in which she is held by the academic community. Her ongoing dedication inspires both colleagues and students to pursue innovative research and uphold the highest academic standards.

Skills

Prof. Dr. Seda Karayünlü Bozbaş possesses a broad range of skills that underpin her excellence in analytical chemistry and academic leadership. Her technical proficiency encompasses advanced instrumental analysis, chemometric modeling, and chromatographic techniques, enabling precise and reproducible experimental outcomes. She is adept at atomic and molecular spectroscopy, separation techniques, and sample preparation, ensuring high-quality research standards. In addition to her laboratory expertise, she excels in curriculum development and the delivery of complex chemical concepts to diverse student audiences. Her strong organizational skills are evident through effective program coordination and administration, while her commitment to quality management is demonstrated through participation in accredited training programs. Prof. Dr. Karayünlü Bozbaş also exhibits exceptional problem-solving abilities, research innovation, and collaborative teamwork, making her a trusted mentor and leader. Her multifaceted skill set fosters both scientific advancements and academic excellence in every endeavor she undertakes. Her skills drive innovation and empower future scientific breakthroughs.

Research Focus

Prof. Dr. Seda Karayünlü Bozbaş’s research is primarily focused on advancing analytical chemistry through innovative experimental and computational approaches. Her work encompasses the development and refinement of instrumental analysis techniques and chemometric methods to achieve precise, reliable measurements in complex matrices. She investigates atomic and molecular spectroscopy to better understand chemical interactions and improve detection limits in trace element analysis. Her studies also address separation techniques and chromatography, aiming to optimize analytical protocols for food analysis and environmental monitoring. Additionally, she explores micro and trace analysis methods, with an emphasis on enhancing sample preparation procedures for robust and reproducible results. By integrating modern technology with fundamental scientific principles, her research contributes to both theoretical advancements and practical applications in chemistry. This comprehensive approach not only elevates the accuracy of analytical measurements but also supports sustainable practices in chemical analysis and quality control, driving groundbreaking innovation and setting new industry benchmarks.

Conclusion✅

Prof. Dr. Seda Karayünlü Bozbaş is a strong candidate for the Women Researcher Award, given her extensive academic qualifications, innovative research contributions, and proven leadership in both education and administration. Her dedication to advancing the field of chemistry through rigorous research, teaching excellence, and active community engagement makes her a deserving nominee. With some further emphasis on international collaborations and publication outreach, her already impressive career can reach even greater heights. Overall, she embodies the qualities of a pioneering woman researcher poised to inspire future generations and drive significant advancements in her field.

 

📚Publications to Noted

 

Investigation of adsorption potential of waste jewelry meerschaum powder for Cu(II) and cationic dye

Year: 2024

Investigation Of Mycotoxins In Packed Gluten Free Foods

Year: 2023

The use of Turkish coffee waste as a polymeric adsorbent for methyl orange adsorption from aqueous solutions

Year: 2023

Application of Response Surface Methodology for Optimization of Copper Removal Using a Novel Polymeric Adsorbent

Year: 2022

Adsorption of murexide dye from aqueous solution using a novel Schiff base tin(IV) compound

Year: 2022

Removal of Murexide Dye from Aqueous Solution Using A Novel Schiff Base Tin(IV) Compound

Year: 2021

Evaluating the optimum working parameters for the removal of methyl orange from aqueous solution based on a statistical design

Year: 2016

Low-cost biosorbent: Anadara inaequivaluis shells for removal of Pb(II) and Cu(II) from aqueous solution

Year: 2016

Chemometric evaluation of the heavy metals distribution in waters from the Dilovasi region in Kocaeli, Turkey

Year: 2013

Novel inorganic-organic hybrid polymers to remove heavy metals from aqueous solution

Year: 2013

 

Shimaa El-Hadad | Materials Science | Best Researcher Award

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Mihai Bugaru | Materials | Excellence in Research

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Xin Qu | 2D Materials | Best Faculty Award

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Dr. Xin Qu | 2D Materials | Best Faculty Award

professional technical position at Jilin Normal University, China

Dr. Xin Qu stands as an exemplary candidate for the Best Faculty Award based on his extensive contributions to education, research, and mentorship. His academic and professional journey showcases a deep commitment to advancing knowledge and fostering innovation in the field of physics.

 

📝professional profile

ORCID

Scopus Profile

🎓Educational Details:

Dr. Qu’s educational journey is a testament to his dedication and intellectual prowess. He earned his bachelor’s degree in Physics from Jilin Normal University in 2013, followed by a master’s and doctoral degree in Condensed Matter Physics from the University of Chinese Academy of Sciences, completing his studies under the mentorship of esteemed professors Jinghai Yang and Yanming Ma. His academic foundation is robust, reflecting a seamless transition from undergraduate studies to advanced research in condensed matter physics.

👨‍🏫Professional Experience:

Since July 2018, Dr. Qu has been imparting knowledge as a lecturer at the College of Physics, Jilin Normal University. His professional trajectory is marked by significant roles, including serving as the Director of the Department of Applied Physics since June 2022 and a postdoctoral researcher at Jilin University under the guidance of Yanming Ma. Dr. Qu’s career is a blend of teaching, research, and administrative excellence.

Teaching Contributions:

Dr. Qu has a rich teaching portfolio, encompassing courses such as Solid State Physics, Thermodynamics and Statistical Physics, Python Programming, and Quantum Theory of Solids. He has mentored students in various competitions, guiding them to achieve notable accolades in regional and national contests, thus fostering a spirit of innovation and excellence among his students.

Research Interest:

Dr. Qu’s research interests lie in the theoretical design and simulation of two-dimensional functional materials using first-principles and finite element methods. His research contributions are substantial, with over 30 papers published in esteemed international journals. His works, often as a co-first author or corresponding author, appear in leading journals such as the Journal of the American Chemical Society and Nanoscale, underscoring his impact in the field of condensed matter physics.

Awards:

Dr. Qu’s academic excellence is recognized through various awards and certifications. He holds a Level 2 Grade A certificate in Mandarin, a teaching qualification for both high school and higher education, and numerous accolades from the University of Chinese Academy of Sciences. His proficiency in English is evidenced by his competitive scores in the National College English Test and the National English Competition for College Students.

Community and Professional Engagement:

In addition to his academic responsibilities, Dr. Qu actively participates in community service as a volunteer for pandemic prevention and science popularization activities. He is a lifelong member of the Chinese Physical Society and the Chinese Mathematical Society and serves as a council member of the Higher Education Solid State Physics Research Association. His involvement in academic peer review for journals like Nanoscale and Computational Materials Science showcases his commitment to advancing scientific knowledge.

Conclusion

Dr. Xin Qu’s extensive contributions to academia, his dedication to teaching, and his pioneering research make him an exemplary candidate for the Research for Best Faculty Award. His blend of academic rigor, professional excellence, and impactful research establishes him as a leading figure in his field, deserving of recognition and accolades.

📚Publications to Noted

“Janus MoSH/WSi2N4 van der Waals Heterostructure: Two-Dimensional Metal/Semiconductor Contact”

Journal: Molecules

Date: 2024-07-28

DOI: 10.3390/molecules29153554

Authors: Not provided in your message.

Citations: Information not available.

“Effective mass regulating of α-PbSe under pressure”

Journal: AIP Advances

Date: 2023-12-01

DOI: 10.1063/5.0181107

Authors: Not provided in your message.

Citations: Information not available.

“Tunable electrical contact properties in two-dimensional van der Waals V2C/MoSi2N4 heterostructures”

Journal: Journal of Physics: Condensed Matter

Date: 2023-11-06

DOI: 10.1088/1361-648X/ace86f

Authors: Not provided in your message.

Citations: Information not available.

“Optimizing the thermoelectric transport properties of fast ionic conductor β -Ag2S under high pressure and high temperature”

Journal: Applied Physics Letters

Date: 2023-08-07

DOI: 10.1063/5.0155614

Authors: Not provided in your message.

Citations: Information not available.

“Tunable Contact Types and Interfacial Electronic Properties in TaS2/MoS2 and TaS2/WSe2 Heterostructures”

Journal: Molecules

Date: 2023-07-24

DOI: 10.3390/molecules28145607

Authors: Not provided in your message.

Citations: Information not available.

“Huge perpendicular magnetic anisotropy in a 12-fold planar hypercoordinate W@B12(NCCN)3 monolayer”

Journal: Applied Physics Letters

Date: 2023-06-05

DOI: 10.1063/5.0152175

Authors: Not provided in your message.

Citations: Information not available.

“Hard-breakable Ohmic contact in 2D CrSi2N4-metal heterostructures: A DFT study”

Journal: AIP Advances

Date: 2023-03-01

DOI: 10.1063/5.0132330

Authors: Not provided in your message.

Citations: Information not available.

“Phase Transitions and Electric Properties of PbBr2 under High Pressure: A First-Principles Study”

Journal: Materials

Date: 2022-11-19

DOI: 10.3390/ma15228222

Authors: Not provided in your message.

Citations: Information not available.

“Unconventional Stoichiometries of Na–O Compounds at High Pressures”

Journal: Materials

Date: 2021-12-12

DOI: 10.3390/ma14247650

Authors: Not provided in your message.

Citations: Information not available.

“Two-Dimensional TeB Structures with Anisotropic Carrier Mobility and Tunable Bandgap”

Journal: Molecules

Date: 2021-10-23

DOI: 10.3390/molecules26216404

Authors: Not provided in your message.

Citations: Information not available.

 

Mélanie Di Mario | Sustainable Materials | Best Researcher Award

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Ms. Mélanie Di Mario | Sustainable Materials | Best Researcher Award

Senior Scientist at Sciensano, Belgium

Ms. Mélanie Di Mario is a highly skilled scientist specializing in the field of analytical toxicology and biomedical sciences. Currently, she serves as a Scientist at Sciensano in Brussels, Belgium, where she oversees the Food Contact Materials National Reference Laboratory and represents Belgium at the European Reference Laboratory for food contact materials. Mélanie excels in developing and validating analytical methods for detecting and quantifying substances in food matrices and food contact materials using advanced techniques such as GC-MS/MS, LC-MS/MS, LC-UV, LC-FLUO, GC-FID, and LC-HRMS.

📝professional profile

Scopus Profile

🎓Educational Details:

Since March 1, 2021, I have been pursuing my PhD at the University of Liège in collaboration with Sciensano in Liège, Belgium. My research is focused on advancing the field of biomedical sciences, leveraging the extensive resources and expertise available at both institutions. For more information about the University of Liège, you can visit their website. From September 1, 2012, to September 15, 2017, I completed my Bachelor and Master degrees in Biomedical Sciences with a specialty in Biological Analyses at the University of Liège. This comprehensive program provided me with a strong foundation in biomedical sciences and specialized skills in biological analyses, preparing me for my current research and professional roles.

👨‍🏫Professional Experience:

From February 5, 2019, to the present, I have been working as a Scientist at Sciensano in Brussels, Belgium. In this role, I am responsible for the Food Contact Materials National Reference Laboratory and serve as the Belgian representative at the European Reference Laboratory for food contact materials. I manage the practical organization of daily laboratory activities in accordance with ISO 17025 and oversee routine analysis of food additives and food contact materials. My work includes the development and validation of analytical methods for detecting and quantifying various substances in food matrices and food contact materials using advanced techniques such as GC-MS/MS, LC-MS/MS, LC-UV, LC-FLUO, GC-FID, and LC-HRMS. Additionally, I participate in proficiency tests, write scientific reports, papers, and procedures, supervise junior scientists, analysts, and interns, and organize workshops for Belgian official control laboratories. As the lead scientist, I also spearhead research projects related to food contact materials and food. Between January 2, 2019, and April 15, 2019, I worked as an Assistant Project Manager at Eurofins Amatsi Analytics in Toulouse, France. My responsibilities included checking raw data, results, and reports of clinical trials, writing and reviewing protocols, analytical reports, and standard operating procedures (SOPs), and participating in the GMP environment within the laboratory. Prior to that, from February 19, 2018, to January 2, 2019, I served as a Bioanalyst at Amatsigroup in Toulouse, France. My duties involved performing routine analyses on biological matrices for clinical trials, developing and validating analytical methods on biological matrices, identifying and resolving technical issues, and calibrating HPLC-MS/MS instruments.

Skills:

Ms. Mélanie Di Mario possesses a diverse set of digital skills essential for modern scientific research and collaboration. Her expertise includes information and data literacy, which enables her to effectively gather, analyze, and interpret complex data sets. She excels in communication and collaboration, facilitating seamless interaction with colleagues, stakeholders, and the scientific community through various digital platforms. Mélanie is also proficient in digital content creation, allowing her to produce high-quality scientific reports, presentations, and publications. Additionally, she prioritizes safety in all digital endeavors, ensuring secure data handling and adherence to best practices. Her problem-solving skills further enhance her ability to address and overcome technical and analytical challenges in her work.

📚Publications to Noted

Cannabinoids and Therapeutics | Cannabinoïdes et Thérapeutique

Authors: Fabresse, N., Becam, J., Carrara, L., Senechal, H., Salle, S.

Journal: Toxicologie Analytique et Clinique

Year: 2019

Volume: 31

Issue: 3

Pages: 153–172

Citations: 7

Fatal Nefopam (Acupan®) Overdose | Overdose Fatale de Nefopam (Acupan®)

Authors: Di Mario, M., Luisi, C., Martrille, L., Tournebize, J., Roman, E.

Journal: Toxicologie Analytique et Clinique

Year: 2018

Volume: 30

Issue: 4

Pages: 239–245

Citations: 1