Zhao Wang | Materials Science | Best Researcher Award

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Dr. Zhao Wang | Materials Science | Best Researcher Award

Technical Institute of Physics and Chemistry, Chinese Academy of Sciences | China

Dr. Zhao Wang is a distinguished researcher in the field of physical chemistry and advanced material science, specializing in the design and fabrication of high-performance materials inspired by biomimicry. His research focuses on impact-resistant glass, bulletproof glass, and advanced adhesion-controlled interface materials, integrating principles of bionic molecular engineering and interfacial optimization. With a strong foundation in chemistry and applied sciences, Dr. Wang has contributed significantly to internationally recognized journals such as Angewandte Chemie International Edition, Advanced Materials, Chemistry – A European Journal, and Science Bulletin. His work is at the forefront of interdisciplinary research, spanning materials chemistry, nanotechnology, biomimetic systems, and functional device applications. He completed his Ph.D. in Physical Chemistry at the Technical Institute of Physics and Chemistry, CAS, and currently serves as a Special Research Assistant at CAS under the mentorship of Academician Lei Jiang. His research projects include the National Postdoctoral Researcher Funding Program and CAS Special Research Assistant Project, aimed at biomimetic materials for healthcare and industrial applications. Recognized with prestigious scholarships and awards, including the Excellent Postdoctoral Talent of CAS, Dr. Wang has emerged as a promising young scientist with the potential to lead global collaborations in material innovation.

Professional Profile

Scopus 

Education

Dr. Zhao Wang’s academic journey reflects excellence and dedication to scientific inquiry. He obtained his Bachelor of Science in Chemistry from Northeast Normal University, where he developed his foundational skills in analytical chemistry, material synthesis, and molecular design under the mentorship of Prof. Shuxia Liu. His outstanding academic performance earned him multiple President Scholarships and National Scholarships, marking him as one of the top students in his cohort. Building upon his undergraduate success, Dr. Wang pursued a Ph.D. in Physical Chemistry at the Technical Institute of Physics and Chemistry (TIPC), Chinese Academy of Sciences. His doctoral research, guided by Prof. Shutao Wang, focused on bionic molecular engineering and advanced adhesion chemistry, resulting in several publications in Q1 journals and the foundation of his expertise in high-performance impact-resistant glass and biomimetic materials. Dr. Wang’s formal education provided him with not only technical expertise but also exposure to interdisciplinary approaches that merge chemistry, physics, and engineering. His academic training was complemented by scholarships such as the Outstanding President Scholarship of CAS and National Scholarship. These achievements highlight his academic brilliance and set the stage for his continuing contributions as a materials chemist and research innovator.

Professional Experience

Dr. Zhao Wang has built a strong professional trajectory through positions that combine cutting-edge research, collaborative innovation, and mentorship. he has been serving as a Special Research Assistant at the Technical Institute of Physics and Chemistry (TIPC), CAS, working under the guidance of Academician Lei Jiang. In this role, he actively engages in research projects funded by national and international agencies, including the CAS Special Research Assistant Project and the National Postdoctoral Researcher Funding Program. His focus lies in biomimetic material design, adhesion chemistry, and device engineering, with applications extending to healthcare diagnostics, energy devices, and protective materials. During his doctoral years, Dr. Wang participated in several collaborative projects supported by the National Natural Science Foundation of China and CAS strategic initiatives, contributing to phase-change material design for organ preservation, bionic wet adhesion systems, and organic semiconductor devices. His involvement in both independent and team-based research demonstrates his versatility as a researcher capable of tackling fundamental science while addressing practical challenges. His professional journey is distinguished by the successful integration of experimental design, project leadership, and international collaboration, resulting in impactful scientific contributions. Through his roles, Dr. Wang has demonstrated not only research expertise but also leadership qualities essential for future academic and industrial advancements.

Research Interests

Dr. Zhao Wang’s research interests are rooted in biomimicry, material design, and interfacial engineering, with a focus on developing next-generation high-performance materials. His primary research area involves the design and fabrication of impact-resistant and bulletproof glass by leveraging bionic molecular engineering and interfacial optimization. These studies aim to enhance durability, transparency, and resistance, addressing global demands for advanced safety materials in defense, transportation, and infrastructure. Beyond glass materials, Dr. Wang explores biomimetic adhesion-controlled interfaces, inspired by marine organisms and natural adhesion systems. His research in wet adhesion interface materials seeks applications in industrial coatings, medical adhesives, and microelectronic devices. Additionally, he has expanded his interests to biomimetic sensors for early disease diagnosis, as part of the National Postdoctoral Researcher Funding Program, focusing on exhaled biomarker detection for healthcare applications. Dr. Wang’s work also bridges semiconductor interface design and energy materials, where he has contributed to strategies for enhancing the performance of organic electronics and phase-change materials for organ preservation. His interdisciplinary approach highlights the convergence of chemistry, biology, and materials engineering, positioning him as a versatile researcher whose contributions address critical challenges in science, technology, and society.

Research Skills

Dr. Zhao Wang has developed a broad range of technical and analytical skills that underpin his success as a researcher in physical chemistry and material science. His expertise in experimental design and troubleshooting allows him to construct innovative material systems while ensuring high reproducibility and precision. He is proficient in advanced data analysis tools, including OriginPro and MATLAB, enabling him to interpret experimental results and model material behavior effectively. His skills extend to scientific writing and grant proposal preparation, where he has contributed to peer-reviewed publications and secured funding for prestigious projects. Dr. Wang’s laboratory skills include nanostructured material synthesis, interfacial engineering, and polymer integration, particularly within biomimetic and semiconductor systems. His ability to merge theory with practical experimentation reflects his innovative research approach. Additionally, Dr. Wang demonstrates strong communication and presentation abilities, being fluent in English for scientific discourse, international collaboration, and conference participation. He is also well-versed in lab safety and compliance, ensuring responsible and ethical research practices. These skills collectively define him as a well-rounded scientist capable of excelling in diverse research environments while mentoring younger researchers and contributing to global knowledge advancement.

Awards and Honors

Dr. Zhao Wang’s academic and research career is distinguished by a series of national and institutional awards that recognize his excellence and contributions. he was honored with the Excellent Postdoctoral Talent of CAS Award, reflecting his outstanding research performance and future potential. During his doctoral studies, he received the Outstanding President Scholarship of CAS and the National Scholarship, both of which are highly competitive and prestigious recognitions within China’s academic system. Earlier in his career, Dr. Wang was awarded the Outstanding Student of University of CAS and the Excellent Poster Award from the Royal Society of Chemistry for his innovative research presentations. He consistently secured merit-based scholarships, including the Second-Class Director Scholarship, Outstanding Graduate Student Award, and multiple President Scholarships from Northeast Normal University. These recognitions underscore his academic brilliance, innovative thinking, and research impact. Collectively, they demonstrate his ability to excel in both academic and professional environments, highlighting his commitment to advancing material science and contributing to international research communities. His awards position him as a promising global researcher with a track record of sustained excellence.

Publication Top Notes

  • Superwetting-Enabled In Situ Silicification for Artificial Silicified Wood — 2025

  • Dynamic-Wetting Liquid Metal Thin Layer Induced via Surface Oxygen-Containing Functional Groups — 2025 — 3 citations

Conclusion

In conclusion, Dr. Zhao Wang represents an emerging leader in physical chemistry and material science, with contributions that bridge fundamental research and practical applications. His work on impact-resistant glass, biomimetic adhesion materials, and biomimetic sensors addresses critical global challenges in security, healthcare, and advanced technologies. Backed by a strong academic foundation, a growing list of Q1 journal publications, and prestigious recognitions such as the Excellent Postdoctoral Talent of CAS, Dr. Wang has demonstrated consistent excellence and innovation. Beyond research, his engagement in national and international collaborations and his role in mentoring early-stage researchers highlight his leadership qualities and dedication to scientific communities. His strong research skills, combined with a forward-looking vision, position him as a candidate who can drive future breakthroughs in material innovation. Dr. Zhao Wang is highly deserving of the Best Researcher Award, as his contributions not only enrich the academic world but also provide tangible benefits to society at large. With his expertise, dedication, and leadership potential, he is poised to emerge as a global authority in biomimetic material engineering and advanced functional materials, contributing significantly to science and humanity.

Aenas Laith Ali | Materials Science | Best Academic Researcher Award

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Dr. Aenas Laith Ali | Materials Science | Best Academic Researcher Award

Babylon University | Iraq

Enas Laith Ali Al-Dulaimi is an accomplished researcher and materials engineer from Iraq, recognized for her expertise in alloy development, corrosion resistance, and aerospace materials. With a strong academic foundation in metallurgy and materials engineering, she has contributed significantly to advancing knowledge in the areas of alloy processing, microstructural analysis, and mechanical property improvement. Her work is deeply rooted in both academic research and practical laboratory investigations, bridging the gap between theoretical insights and industrial applications. Over the years, she has developed a strong research portfolio, including multiple publications in internationally indexed journals, book chapters, and conference proceedings. Enas has also demonstrated her leadership skills by guiding students, contributing to academic projects, and engaging in training programs to share her expertise. Her work spans various advanced techniques, including X-ray diffraction, optical microscopy, and corrosion testing methods, positioning her as a specialist in material characterization and alloy performance evaluation. In addition to her academic contributions, she has earned professional certifications and participated in interdisciplinary collaborations, reflecting her commitment to continuous learning and professional growth. Her research excellence, combined with a strong vision for innovation and societal impact, makes her a valuable contributor to the global scientific and engineering community.

Professional Profile

Scopus | Google Scholar

Education

Enas Laith Ali Al-Dulaimi holds a distinguished academic background in materials engineering, with both undergraduate and postgraduate degrees from the University of Babylon, Iraq. She earned her Bachelor’s degree in Metallurgical and Materials Engineering (Metals Division), where she graduated with high distinction, ranking fourth in her department. During her undergraduate studies, she completed a major project on improving corrosion resistance in Nitinol alloys through surface treatment techniques, which demonstrated her early research capabilities and passion for materials development. Building on this foundation, she pursued a Master’s degree in Metallurgical and Materials Engineering (Metals Division) at the University of Babylon. Her Master’s research was focused on the role of alloying techniques in enhancing the properties of Al-Li alloys used in aerospace industries, which showcased her ability to address complex engineering challenges with real-world applications. This work contributed valuable insights into the aerospace field, particularly regarding alloy strength, durability, and resistance to corrosion. Alongside her formal education, she has pursued continuous learning through professional certifications and specialized training, including programs on Python programming, artificial intelligence, electronic teaching methods, and advanced laboratory practices, ensuring her academic profile is well-rounded and internationally competitive.

Professional Experience

Enas Laith Ali Al-Dulaimi has accumulated extensive professional experience as a materials engineer, academic researcher, and laboratory specialist at the University of Babylon. In her role, she has actively contributed to teaching, guiding students in practical experiments, and assisting in advanced laboratory investigations related to metallurgy and materials characterization. Her hands-on experience covers mechanical testing, hardness, tensile and compression strength evaluations, as well as corrosion resistance studies, all of which are essential for assessing material performance under different industrial conditions. Beyond her academic role, she has served as a research associate in various collaborative projects, particularly in developing advanced alloys for aerospace and industrial applications. Enas is skilled in operating modern laboratory instruments such as optical microscopes, X-ray diffraction systems, and metallurgical testing setups, which have been instrumental in her research output. Her professional contributions also extend to writing academic reports, research papers, and technical documents that bridge scientific knowledge with industrial relevance. Additionally, she has played a role in organizing academic seminars and workshops, enabling knowledge exchange between researchers and students. By combining teaching, applied research, and laboratory training, she has developed a strong professional profile that highlights her technical expertise, leadership qualities, and dedication to advancing material sciences.

Research Interests

The research interests of Enas Laith Ali Al-Dulaimi lie primarily in the field of advanced materials engineering, alloy development, and aerospace materials applications. She is particularly focused on studying the corrosion behavior, microstructure, and mechanical properties of Al-Li alloys, Ni-Ti alloys, and high-strength steels, which are widely used in aerospace, medical, and industrial sectors. Her work emphasizes the role of alloying elements, surface treatment, and thermal processing techniques in improving the durability and performance of these materials. She has conducted detailed studies on the effect of micro-alloying with elements such as Ag, Ge, Mg, and Cu, contributing new knowledge on how these additions enhance alloy strength, toughness, and corrosion resistance. In addition to alloy development, she is interested in nanomaterials and advanced composites for engineering applications, particularly those with biomedical and aerospace potential. Enas is also engaged in interdisciplinary research that integrates statistical modeling, materials characterization, and experimental testing methods to provide comprehensive solutions to engineering challenges. With a vision to expand her work globally, she aims to further explore sustainable materials development, environmentally friendly alloys, and innovative processing techniques, ensuring that her research contributes to both industrial advancement and societal progress.

Research Skills

Enas Laith Ali Al-Dulaimi possesses a wide range of technical, analytical, and academic research skills that make her a highly competent materials engineer and researcher. She is proficient in conducting structural and microstructural analysis using X-ray diffraction (XRD), optical microscopy, and scanning techniques, which are critical for evaluating alloy composition and performance. Her expertise extends to mechanical property testing, including hardness, tensile, fracture toughness, and corrosion resistance measurements. Enas is skilled in experimental design, statistical data analysis, and technical report writing, supported by her proficiency in tools such as SPSS, Microsoft Excel, and other statistical platforms. She is also experienced in 3D design and modeling using AutoCAD and Home Design 3D, complementing her engineering expertise with design capabilities. Her software knowledge includes Microsoft Office Suite, Adobe Photoshop, and presentation design tools, enhancing her ability to present research findings effectively. Beyond technical skills, she has strong abilities in academic writing, publishing in peer-reviewed journals, and presenting at conferences. Her personal skills include critical thinking, teamwork, problem-solving, and mentoring younger researchers, making her not only an independent investigator but also a collaborative academic professional with a strong commitment to continuous learning and innovation.

Awards and Honors

Throughout her career, Enas Laith Ali Al-Dulaimi has received several academic honors, certifications, and professional recognitions that underscore her contributions to the field of materials engineering. She has published multiple papers in Scopus and IEEE-indexed journals, including IOP Conference Series: Materials Science and Engineering, Journal of Engineering and Applied Sciences, and International Journal of Mechanical Engineering and Technology (IJMET), with her works receiving citations from international researchers. In addition to journal publications, she has authored and co-authored book chapters on alloy development and microstructure analysis, demonstrating her contribution to academic literature. Enas has also earned professional certifications, including the prestigious TOT (Certified Trainer) accreditation, a University of Baghdad certification in E-learning and Zoom teaching platforms, and recognition from the American Association of Neurological Surgeons (AANS) for intensive care management training. She has further enhanced her international profile by completing Udemy certifications in Python programming, artificial intelligence, and advanced presentation design. These achievements reflect not only her academic and research excellence but also her commitment to continuous professional development. Her awards and recognitions highlight her growing influence in the academic community and her readiness to take on more impactful global research roles.

Publication Top Notes

  • The Effects of Chemical Oxidation on Corrosion Behavior of Ni-Ti Alloy — 2021 — 5 citations

  • Experimental and theoretical analysis of bismuth Co-doped erbium-based hydroxyapatites — 2025 — 1 citation

  • Microstructure and mechanical properties of Ag and Ge multi-micro alloyed Al-(3.2) Cu-(2) Li-(0.6) Mg alloys — 2019 — 1 citation

  • Influence of Alloying Element on Corrosion Behavior of (Al-Li) Alloys used in Aerospace Industries — 2019 — 1 citation

  • Comprehensive analysis of the impact of iron and terbium co-dopant levels on the structural, thermal, and spectroscopic properties of hydroxyapatite — 2025

  • Optimizing the welding performance of 2024-T351 aluminum alloy through friction stir welding technology — 2024

  • Investigation of the effect of chitosan nanoparticles on MDR Bacillus cereus isolated from pasteurized milk — 2024

Conclusion

In conclusion, Enas Laith Ali Al-Dulaimi represents a dynamic and forward-thinking researcher whose contributions to materials engineering, alloy development, and aerospace applications position her as a rising leader in her field. Her academic journey, professional experience, and diverse research portfolio demonstrate a clear commitment to advancing knowledge while ensuring practical applications that benefit industry and society. She has successfully combined strong technical expertise with academic leadership, mentorship, and professional training, making her profile well-rounded and globally relevant. Through her publications, certifications, and collaborations, she has already built a foundation for international recognition. However, her vision goes further—she aims to expand her research on sustainable and advanced alloys, participate in global collaborations, and contribute to the development of environmentally friendly materials for future generations. With her blend of academic excellence, professional achievements, and innovative mindset, Enas is highly deserving of recognition as a Best Researcher Award nominee. Her ability to bridge academic research with practical impact reflects her true potential as a scientist, educator, and global contributor to the engineering community.

Juan de Pablo | Materials Science | Best Researcher Award

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Prof. Juan de Pablo | Materials Science | Best Researcher Award

Professor and Vice President from New York University, United States

Dr. Juan José de Pablo is a globally recognized leader in molecular engineering, materials science, and chemical engineering, known for his groundbreaking research and extensive leadership in academic and national scientific organizations. Currently serving as the Executive Vice President for Global Science and Technology and Executive Dean at the Tandon School of Engineering, New York University, Dr. de Pablo has had an illustrious academic and professional journey. He is also a senior scientist at Argonne National Laboratory and has held pivotal roles at the University of Chicago and the University of Wisconsin. His work spans multiple research areas, including directed self-assembly of polymers, soft materials, molecular simulation, and biotechnology. Over the years, Dr. de Pablo has established himself as a prolific researcher with over 20 patents, numerous influential publications, and editorial positions in high-impact journals. He is an elected member of prestigious institutions including the U.S. National Academy of Sciences, the National Academy of Engineering, and the American Academy of Arts and Sciences. His leadership has influenced science policy, strategic research initiatives, and interdisciplinary collaborations across the globe. His contributions are not only scientific but visionary, paving the way for future technological advances in materials design, nanotechnology, and energy solutions.

Professional Profile

Education

Dr. de Pablo’s academic foundation is as impressive as his professional accomplishments. He began his education at the National University of Mexico (UNAM), where he earned a Bachelor of Science in Chemical Engineering in 1985. His passion for chemical engineering led him to pursue a doctoral degree at the University of California, Berkeley, where he received his Ph.D. in Chemical Engineering in 1990. After completing his doctorate, he furthered his research capabilities during a postdoctoral fellowship in Materials Science at the Institute for Polymers, ETH Zurich, Switzerland, from 1990 to 1992. These formative years provided him with a robust interdisciplinary background that blends engineering principles with advanced materials science. His exposure to leading institutions in North America and Europe gave him a global perspective early in his career, which continues to shape his international collaborations and leadership roles. The rigorous training he received laid the groundwork for his expertise in thermodynamics, polymer physics, and computational modeling, which would go on to influence countless innovations in both academic and industrial domains.

Professional Experience

Dr. de Pablo’s professional career spans over three decades and includes a distinguished trajectory of teaching, research, and leadership. He began his academic career as an Assistant Professor of Chemical Engineering at the University of Wisconsin in 1992, rising through the ranks to become a full professor and eventually Director of its Materials Research Science and Engineering Center. From 2000 to 2012, he also served as Deputy Director of the Nanoscale Science and Engineering Center. In 2012, he joined the University of Chicago as the Liew Family Professor at the Institute for Molecular Engineering, and later took on pivotal roles including Co-Director of the Center for Hierarchical Materials Design (CHiMaD) and Deputy Director for Education and Outreach. Since 2018, he has also been CEO of UChicago-Argonne LLC. Dr. de Pablo’s influence extends beyond academia into national and global science leadership, particularly through his vice presidency roles related to U.S. National Laboratories and global innovation. In 2024, he was appointed Executive Dean at NYU’s Tandon School of Engineering, a role through which he continues to shape engineering education and research strategy. His extensive professional background reflects a unique combination of scientific innovation and strategic governance.

Research Interests

Dr. de Pablo’s research interests are both broad and deep, focusing on the intersection of molecular engineering, materials science, and computational physics. A primary focus of his work is on the directed self-assembly of block copolymers, a field in which he has pioneered several methodologies now used in nanomanufacturing and lithography. He also investigates thermophysical properties of soft materials, advanced polymer systems, biological interfaces, and molecular thermodynamics. His interest in computational modeling has led to the development of new simulation tools and theoretical frameworks for studying molecular and nanoscale systems, facilitating predictions of material behavior with high accuracy. Additionally, Dr. de Pablo has contributed significantly to biotechnology research, particularly in areas related to cryopreservation, stem cell engineering, and synthetic biology. His interdisciplinary approach allows him to tackle complex problems that span chemistry, physics, and engineering. Through collaborative projects and centers such as CHiMaD, he works closely with experimentalists to translate computational models into real-world applications. His research agenda reflects an enduring commitment to solving fundamental scientific challenges while also addressing practical issues in health, energy, and technology.

Research Skills

Dr. de Pablo possesses an exceptional array of research skills that reflect his training and contributions across multiple scientific disciplines. He is a world leader in computational modeling and molecular simulation, applying these techniques to study the thermodynamic and kinetic behavior of polymers, colloids, and biological systems. His skillset includes advanced knowledge of coarse-grained and multiscale simulations, free energy calculations, and structure-property prediction methods. Beyond computational proficiency, he has deep expertise in thermodynamics, statistical mechanics, and polymer physics. His laboratory and theoretical work complement each other, allowing him to bridge gaps between experimental observations and theoretical predictions. He is also adept at integrating interdisciplinary methods, including those from materials science, chemical engineering, and applied physics. His ability to conceptualize and lead large-scale research initiatives, such as the Materials Genome Initiative, highlights his strengths in research strategy and innovation management. In mentoring and supervision, Dr. de Pablo has guided dozens of Ph.D. students and postdoctoral fellows, instilling in them a rigorous and holistic research methodology. His technical versatility and collaborative mindset are key reasons behind his influential role in shaping modern materials science.

Awards and Honors

Dr. de Pablo has been the recipient of numerous prestigious awards and honors that reflect the depth, breadth, and impact of his scientific career. Early in his career, he received multiple young investigator awards from leading institutions like NSF, IBM, Xerox, 3M, and DuPont, signaling his early promise. He went on to receive the Presidential Faculty Fellow Award from President Bill Clinton and was later elected as a Fellow of the American Physical Society and the American Academy of Arts and Sciences. His research has been recognized through lectureships and invited professorships at top global institutions such as ETH Zurich, Stanford, and the University of Michigan. He has delivered keynote talks and plenary lectures at more than 30 prestigious conferences and universities worldwide. In 2016, he was elected to the U.S. National Academy of Engineering and later to the National Academy of Sciences in 2022. Internationally, he holds honors like the Marie Curie Professorship and the Chevalier de l’Ordre du Mérite (France, 2024). His accolades also include the Polymer Physics Prize from the American Physical Society and numerous distinguished lectureships from Caltech, MIT, Princeton, and others. These honors underline his status as a leading global authority in materials and molecular engineering.

Conclusion

Dr. Juan José de Pablo exemplifies excellence in scientific research, innovation, and leadership. His prolific academic career, paired with his impactful administrative and advisory roles, highlights a rare combination of deep technical expertise and visionary leadership. His contributions to molecular engineering and materials science have not only expanded fundamental scientific understanding but have also enabled new technologies in fields ranging from nanolithography to cryopreservation. With over 20 patents, numerous high-impact publications, and a strong track record of mentorship, Dr. de Pablo has influenced both the academic community and industrial applications. His election to multiple national academies and his global recognition through prestigious awards are testaments to the quality and impact of his work. While already an established authority, he continues to contribute actively through roles in science policy, research strategy, and education at the highest levels. In summary, Dr. de Pablo’s lifelong dedication to advancing science and mentoring the next generation of researchers makes him a truly deserving candidate for the Best Researcher Award. His career serves as an inspiration and a benchmark for excellence in global scientific leadership.

Publications Top Notes

  1. Water-mediated ion transport in an anion exchange membrane
    Nature Communications, 2025
    Citations: 2
  2. Structural studies of the IFNλ4 receptor complex using cryoEM enabled by protein engineering
    Nature Communications, 2025
    Citations: 1
  3. Reflection and refraction of directrons at the interface
    Proceedings of the National Academy of Sciences of the United States of America, 2025
  4. Free-Energy Landscapes and Surface Dynamics in Methane Activation on Ni(511) via Machine Learning and Enhanced Sampling
    ACS Catalysis, 2025
  5. Synthetic Active Liquid Crystals Powered by Acoustic Waves
    Advanced Materials, 2025
  6. Current Advances in Genome Modeling Across Length Scales 2025
  7. Chromatin structures from integrated AI and polymer physics model
    PLOS Computational Biology, 2025
    Citations: 1
  8. A Twist on Controlling the Equilibrium of Dynamic Thia-Michael Reactions
    Journal of Organic Chemistry, 2025
  9. Bio-Based Surfactants via Borrowing Hydrogen Catalysis
    Chemistry – A European Journal, 2025
  10. Efficient sampling of free energy landscapes with functions in Sobolev spaces
    Journal of Chemical Physics, 2025
    Citations: 1

Aimé Peláiz Barranco | Materials Science | Best Researcher Award

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Prof. Dr. Aimé Peláiz Barranco | Materials Science | Best Researcher Award

Faculty of Physics, University of Havana, Cuba

Aimé Peláiz Barranco is a distinguished Cuban physicist born on June 25, 1972, in La Habana, Cuba. She currently serves as the Dean and Full Professor at the Faculty of Physics, University of Havana, where she also leads the Ferroic Materials Group. With a prolific academic and research career, she is widely recognized for her contributions to ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials. Dr. Peláiz Barranco has played crucial roles in academic leadership, including serving as Deputy Dean and Secretary of the Scientific Council. Internationally active, she has coordinated the Latin-American Network of Ferroelectric Materials and held invited professorships in prestigious institutions across Mexico, Brazil, Spain, France, Portugal, and China. A full member of the Academy of Sciences of Cuba, she has made significant contributions to teaching, research supervision, and academic development. With over 140 international publications, multiple book chapters, and extensive participation in scientific conferences, she has profoundly impacted the field of materials science. Her outstanding research has earned her several international and national awards, including the TWAS-ROLAC Award, the Sofia Kovalieskaya Award, and the Best Researcher recognition from the University of Havana. Her multilingual proficiency further amplifies her global academic collaborations.

Professional Profile

Education

Aimé Peláiz Barranco pursued all her higher education degrees at the University of Havana, Cuba. She earned her B.Sc. in Physics in 1995, followed by a Master’s degree in Physics Sciences in 1996. She later obtained her Doctorate in Physics Sciences in 2001, cementing her academic foundation in the field of material sciences. Her education has been deeply rooted in the Cuban academic system, particularly at the Faculty of Physics, University of Havana, where she has remained an integral part of the academic community both as a student and later as a faculty leader. Her advanced training provided the essential theoretical and practical framework for her subsequent pioneering research in ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials. Throughout her educational journey, she demonstrated a strong commitment to physics education and material sciences, which laid the groundwork for her international collaborations and leadership roles. Her comprehensive education has not only equipped her with deep expertise in material characterization but also fostered her ability to lead research groups, mentor students, and contribute to scientific advancements globally.

Professional Experience

Aimé Peláiz Barranco has accumulated an extensive professional history at the University of Havana since 1995. She began as a teaching trainee and steadily advanced to become an instructor, assistant professor, auxiliary professor, and eventually a full professor in 2014. Since 2019, she has served as the Dean of the Faculty of Physics, where she also leads the Ferroic Materials Group. Her teaching portfolio includes more than 70 undergraduate and postgraduate courses, with significant involvement in thesis evaluations at the licentiate, master’s, and doctoral levels. Dr. Peláiz Barranco has also held various academic positions such as Deputy Dean, Secretary of the Scientific Council, and Member of the National Physics Commission. She actively participates in scientific organization, having served on committees for over 20 national and international conferences. Internationally, she has been invited as a professor to universities in Mexico, Brazil, Spain, France, Portugal, and China, enhancing global academic exchanges. Her coordination of the Latin-American Network of Ferroelectric Materials between 2000 and 2019 exemplifies her leadership in fostering regional research collaboration. Her broad professional journey showcases her dedication to education, research, and scientific advancement.

Research Interests

Dr. Peláiz Barranco’s research primarily focuses on the preparation and characterization of ferroelectric, piezoelectric, antiferroelectric, and multiferroic materials in the form of ceramics, thin films, and composites. She specializes in the study of phase transitions, relaxors, dielectric relaxation, electrical conductivity, and impedance spectroscopy. Her research extends to bioimpedance, pyroelectricity, piezoelectricity, multiferroics, energy storage, and the electrocaloric effect. These areas contribute significantly to the advancement of modern material science, with applications in sensors, actuators, energy systems, and smart materials. She has led numerous national and international research projects, including three grants awarded by the Third World Academy of Science. Her deep exploration into ferroic materials has resulted in over 140 publications in international journals, four book chapters, and more than 200 presentations at scientific meetings. Dr. Peláiz Barranco’s research activities are globally recognized, positioning her as a leading expert in the field. Through her leadership in the Ferroic Materials Group and the Latin-American Network of Ferroelectric Materials, she has created substantial regional and international research synergies.

Research Skills

Aimé Peláiz Barranco possesses exceptional research skills in experimental design, material synthesis, and advanced characterization techniques. Her expertise spans ceramics, thin films, and composite materials, particularly in the domains of ferroelectric, piezoelectric, antiferroelectric, and multiferroic substances. She is adept at using impedance spectroscopy, dielectric relaxation analysis, and pyroelectric and piezoelectric measurements to explore the functional properties of advanced materials. Additionally, she is skilled in bioimpedance analysis and electrocaloric effect evaluation, essential for emerging applications in biophysics and energy storage. Dr. Peláiz Barranco’s ability to lead large, multi-institutional research projects, both nationally and internationally, underscores her project management and scientific coordination capabilities. Her involvement as an editor and contributor to scientific books further highlights her ability to synthesize complex information and contribute to scientific literature. Furthermore, her supervisory experience, mentoring over 30 undergraduate, master’s, and doctoral theses, demonstrates her leadership and instructional strengths in guiding research teams and developing new scientific talent. Her fluency in Spanish, English, and Portuguese enhances her global research communication and collaboration skills.

Awards and Honors

Aimé Peláiz Barranco has received numerous prestigious awards and recognitions at both national and international levels. Among her international accolades, she won the First Prize at the First Iberoamerican Concourse of Laboratory Classes in Materials Science (1999) and the TWAS-ROLAC Award for Young Scientists in Physics (2011). She has been honored with the Young Scientist Award by CAS-TWAS (2012) and the TWOWS Award for Young Women Scientists (2010), signifying her influence across the Latin America and Caribbean region. Nationally, she has been repeatedly awarded by the Cuban Academy of Sciences, with multiple recognitions spanning from 1999 to 2023. The University of Havana has acknowledged her as Best Researcher in several years, alongside departmental and faculty awards for scientific excellence and educational innovation. She also received the distinguished Carlos J. Finlay Medal for her significant scientific contributions. These honors highlight her sustained commitment to research, education, and academic leadership. Her continuous recognition within Cuba and abroad underscores her remarkable impact on materials science and the broader scientific community.

Conclusion

Aimé Peláiz Barranco is an accomplished physicist whose career exemplifies excellence in teaching, research, and academic leadership. Her extensive expertise in ferroic materials has contributed significantly to the advancement of materials science in Cuba and internationally. Through her roles as Dean, research group leader, and international project coordinator, she has demonstrated exceptional leadership and organizational skills. Her research is widely published, and she has been recognized with numerous prestigious awards for her scientific achievements and educational contributions. Dr. Peláiz Barranco’s commitment to fostering regional and international collaborations, along with her dedication to mentoring the next generation of scientists, highlights her as a key figure in the scientific community. Fluent in multiple languages and having held various visiting professorships, she continues to build global partnerships that enrich both her work and the institutions she serves. Her professional journey reflects a harmonious balance of research excellence, impactful teaching, and significant service to the academic and scientific ecosystem, positioning her as a highly deserving candidate for the Best Researcher Award.

Publications Top Notes

1. Phase transitions in ferrimagnetic and ferroelectric ceramics by ac measurements

  • Authors: A. Pelaiz-Barranco, M.P. Gutierrez-Amador, A. Huanosta, R. Valenzuela

  • Year: 1998

  • Citations: 163

2. Ionized oxygen vacancy-related electrical conductivity in (Pb₁₋ₓLaₓ)(Zr₀.₉₀Ti₀.₁₀)₁₋ₓ/₄O₃ ceramics

  • Authors: A. Peláiz-Barranco, J.D.S. Guerra, R. Lopez-Noda, E.B. Araujo

  • Year: 2008

  • Citations: 141

3. Ferroelectric ceramic materials of the Aurivillius family

  • Authors: A. Peláiz-Barranco, Y. González-Abreu

  • Year: 2013

  • Citations: 69

4. Dielectric relaxation related to single-ionized oxygen vacancies in (Pb₁₋ₓLaₓ)(Zr₀.₉₀Ti₀.₁₀)₁₋ₓ/₄O₃ ceramics

  • Authors: A. Peláiz-Barranco, J.D.S. Guerra

  • Year: 2010

  • Citations: 65

5. Atomic‐scale imaging and quantification of electrical polarisation in incommensurate antiferroelectric lanthanum‐doped lead zirconate titanate

  • Authors: I. MacLaren, R. Villaurrutia, B. Schaffer, L. Houben, A. Peláiz‐Barranco

  • Year: 2012

  • Citations: 63

6. Raman spectroscopy study of the La‐modified (Bi₀.₅Na₀.₅)₀.₉₂Ba₀.₀₈TiO₃ lead‐free ceramic system

  • Authors: Y. Mendez‐González, A. Peláiz‐Barranco, A.L. Curcio, A.D. Rodrigues, et al.

  • Year: 2019

  • Citations: 57

7. AC behaviour and conductive mechanisms of 2.5 mol% La₂O₃ doped PbZr₀.₅₃Ti₀.₄₇O₃ ferroelectric ceramics

  • Authors: A.P. Barranco, F.C. Pinar, O.P. Martinez, J.D.L.S. Guerra, I.G. Carmenate

  • Year: 1999

  • Citations: 57

8. Effects of MnO₂ additive on the properties of PbZrO₃–PbTiO₃–PbCu₁/₄Nb₃/₄O₃ ferroelectric ceramic system

  • Authors: A.P. Barranco, F.C. Piñar, O.P.M.P. Martínez, E.T. García

  • Year: 2001

  • Citations: 50

9. Thermal and structural characterization of the ZrO₂₋ₓ(OH)₂ₓ to ZrO₂ transition

  • Authors: E. Torres-García, A. Peláiz-Barranco, C. Vázquez-Ramos, G.A. Fuentes

  • Year: 2001

  • Citations: 39

10. Piezo-, pyro-, ferro-, and dielectric properties of ceramic/polymer composites obtained from two modifications of lead titanate

  • Authors: A. Pelaiz-Barranco, P. Marin-Franch

  • Year: 2005

  • Citations: 38

Likun Qian | Materials Science | Best Researcher Award

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Mr. Likun Qian | Materials Science | Best Researcher Award

School of Future Technology, China University of Geosciences (Wuhan), China

Qian Likun is an emerging researcher in the field of automation and control systems, currently pursuing his undergraduate degree at China University of Geosciences (Wuhan). With a solid foundation in electronic technologies, embedded systems, and automation instrumentation, Qian has displayed strong technical proficiency and innovative thinking across various academic and practical projects. He has independently designed and developed motion controllers, control platforms, and monitoring systems, showcasing his ability to integrate software and hardware seamlessly. His projects range from motion trajectory control to subsurface conductor detection and RGBD salient object detection using convolutional neural networks. In addition to his technical skills, Qian has demonstrated outstanding leadership capabilities by serving as the class monitor and contributing to his college’s new media promotion initiatives. He has actively led his classmates to achieve multiple awards at the college level, earning personal recognition as an excellent Communist Youth League cadre. His work ethic, problem-solving ability, and teamwork have set him apart as a student leader and aspiring researcher. With his growing expertise in control systems, programming, and intelligent instrumentation, Qian Likun is positioning himself as a promising researcher with the potential to make significant contributions to the field of automation and intelligent systems in the near future.

Professional Profile

Education

Qian Likun is currently enrolled at China University of Geosciences (Wuhan), where he has been studying Automation since September 2018. His undergraduate education has provided him with comprehensive knowledge of automation systems, control theory, embedded technologies, and sensor applications. Throughout his studies, he has maintained a GPA of 3.01 and successfully completed a diverse range of technical courses such as analog electronic technology, digital logic circuit design, digital signal processing, system analysis, embedded programming, and object-oriented software development. These courses have helped him build a solid theoretical foundation and practical skill set. Qian’s education has also included specialized training in big data processing technologies for manufacturing and advanced system control strategies. His participation in several project-based learning modules has further enhanced his engineering abilities and problem-solving skills. His academic journey reflects not only his dedication to learning but also his ability to apply knowledge effectively to real-world scenarios. Qian has also achieved English proficiency certifications, having passed CET-4 and CET-6, and earned a Computer Level 2 certification in C++, which complements his automation expertise with solid programming capabilities. His educational background has fully equipped him to contribute meaningfully to complex research in automation and intelligent control systems.

Professional Experience

Although Qian Likun is in the early stages of his professional journey, he has accumulated substantial project-based experience that closely mirrors industry applications. He has led and contributed to multiple innovative projects during his time at China University of Geosciences. Notably, Qian successfully designed and implemented a cascade control system for a water tank and pipeline pressure monitoring, using PID control and Ethernet communication to achieve multi-machine interaction with an impressive 85% control precision. He independently built an integrated motion control experimental platform capable of simple three-dimensional relief processing and developed a modular CNC control interface. His hands-on experience also includes controlling servo motors via 51 microcontrollers, designing circuits for microvoltage signal acquisition, and applying LABVIEW software for upper computer visualization. Additionally, he utilized C++ and QT to create a multifunctional human-machine interaction calculator capable of performing both basic arithmetic and complex trigonometric operations. His graduation project focuses on RGBD salient object detection using convolutional neural networks and bifurcation backbone strategies. Qian’s practical experience demonstrates his ability to handle multidisciplinary engineering tasks, from hardware design to embedded system development and intelligent control applications, making him a well-rounded and capable early-career researcher.

Research Interest

Qian Likun’s research interests are centered on automation systems, intelligent instrumentation, embedded control, and intelligent perception technologies. He is particularly fascinated by the integration of sensor technologies with embedded systems to achieve precise control in real-time industrial environments. His work has also ventured into the field of intelligent detection, including subsurface conductor identification and salient object detection using RGBD imaging and convolutional neural networks. Qian is deeply interested in the development of intelligent monitoring systems that leverage human-machine interfaces (HMI) and multi-device communication through Ethernet networks. His passion lies in designing practical control systems that are both accurate and efficient, particularly in complex industrial processes. Furthermore, his recent exploration of deep learning methodologies, especially in salient object detection using bottom-up feature extraction and bifurcation backbone strategies, reflects his growing interest in artificial intelligence and machine vision applications. He is motivated to pursue research that blends traditional control theories with modern computational intelligence techniques to solve real-world challenges. Qian aspires to further investigate advanced control algorithms, embedded smart devices, and data-driven decision-making systems in future academic or industry research, aiming to contribute to the advancement of intelligent automation and control engineering.

Research Skills

Qian Likun possesses a diverse and practical set of research skills that span programming, circuit design, motion control, system modeling, and embedded development. He is proficient in programming languages such as C++ and MATLAB, which he has used to design embedded software, motion control systems, and data visualization interfaces. His expertise in control systems includes practical application of PID control algorithms, system modeling, and real-time control implementations. Qian has hands-on skills in building experimental platforms for motion processing, servo motor control using 51 microcontrollers, and data acquisition through differential amplification circuits. He has also demonstrated the ability to develop multi-functional human-machine interaction interfaces using QT and C++ for embedded applications. His hardware knowledge extends to sensor integration, analog and digital circuit design, and microcontroller programming. Additionally, Qian is familiar with machine learning techniques, particularly convolutional neural networks, which he applied in his graduation project for salient object detection. His skill set is further strengthened by his capability to design networked systems that enable multi-device communication using Ethernet protocols. Qian’s combination of software development, hardware control, signal processing, and intelligent algorithm application makes him a versatile researcher capable of addressing complex automation challenges.

Awards and Honors

Throughout his academic journey, Qian Likun has received multiple recognitions for both his leadership and academic contributions. He has served as the class monitor at China University of Geosciences (Wuhan), successfully leading his class to receive the “Excellent Class” award at the college level on several occasions. His dedication and organizational skills were further acknowledged when he was honored with the title of “Outstanding Communist Youth League Cadre” at the university level. Qian also played an active role in the university’s New Media Promotion Department, where he contributed to the management and content creation for the Automation College’s official WeChat platform. These leadership roles have allowed him to develop strong communication, teamwork, and project management skills in parallel with his technical education. His certification achievements include passing the Computer Level 2 examination in C++ and successfully completing both the College English Test (CET-4 and CET-6), demonstrating his competency in programming and his readiness for international collaboration. These awards and recognitions highlight his well-rounded profile, balancing academic performance, research activities, and social engagement, which together showcase his suitability as a dedicated and promising young researcher.

Conclusion

Qian Likun is a highly motivated, technically skilled, and leadership-oriented young researcher with a growing background in automation and intelligent control systems. His solid foundation in embedded technologies, motion control, signal acquisition, and human-machine interface design, combined with his demonstrated ability to lead project teams and manage complex system integrations, positions him as a promising talent in the engineering field. While he is still at the beginning of his research journey, his proactive engagement in hands-on projects and his exploration of cutting-edge technologies like convolutional neural networks reflect his potential for impactful future research contributions. Qian has demonstrated excellent leadership skills, receiving recognition for both academic performance and community engagement. However, to elevate his research profile to the next level, he would benefit from increasing his involvement in peer-reviewed research publications, enhancing his academic output, and expanding his international collaborations. With continued dedication, academic refinement, and professional development, Qian Likun has the potential to grow into a highly capable and innovative researcher who can contribute significantly to the advancement of automation, intelligent systems, and interdisciplinary engineering solutions.

Publications Top Notes

  1. Title: Design of audio to image cross-modal learning and generation based on single-layer CoPt spin-orbit torque devices
    Authors: Likun Qian, Liu Yang, Chao Zuo, Ying Tao, Wendi Li, Fang Jin, Huihui Li, Kaifeng Dong
    Year: 2025
    Journal: Journal of Magnetism and Magnetic Materials

  2. Title: Design of spike-timing-dependent plasticity synapses based on CoPt-SOT device and its application in all-spin spiking neural network
    Authors: Liu Yang, Shuguang Zhang, Likun Qian, Ying Tao, Fang Jin, Huihui Li, Zhe Guo, Rujun Tang, Kaifeng Dong
    Year: 2025
    Journal: Applied Physics Letters

Danhui Zhang | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Danhui Zhang | Materials Science | Best Researcher Award

Linyi University, China

Zhang Danhui is an accomplished associate professor at the School of Mechanical and Vehicle Engineering, Linyi University, with a distinguished background in engineering and nanomaterials research. Since earning her Ph.D. in Engineering from Nanjing University of Science and Technology in 2012, she has developed a robust research portfolio focused on inorganic nanofunctional materials, polymer composites, and carbon-based nanostructures. With over 40 academic publications, more than 30 of which are indexed in SCI, Dr. Zhang has contributed significantly to fields including surface-enhanced Raman scattering, molecular dynamic simulations, and fluorescence sensors. Her dedication to academic excellence is evident in her active participation in national and provincial research projects, authorship of a scientific monograph, and mentorship of student-led research, resulting in SCI papers and patent grants. In addition to her research work, she is a committed educator, delivering core undergraduate and graduate courses across thermodynamics, chemistry, and physics. She has been recognized with multiple awards for academic and instructional excellence, as well as one registered utility model patent. Dr. Zhang continues to be a key figure in applied materials research and education, combining theoretical innovation with practical applications. Her scholarly contributions position her as a leading candidate for research honors at the national level.

Professional Profile

Education

Zhang Danhui completed her doctoral studies in Engineering at Nanjing University of Science and Technology in 2012. Her doctoral research focused on the synthesis, structure, and properties of functional nanomaterials, specifically targeting noble metal and carbon-based composites. The strong academic foundation laid during her Ph.D. studies has equipped her with a deep understanding of both experimental and theoretical aspects of materials engineering. Prior to her doctoral studies, she had acquired a comprehensive background in science and engineering disciplines, including chemistry, materials science, and applied physics. Her education emphasizes interdisciplinary integration, a feature that is clearly reflected in her ongoing research. The curriculum and training received at Nanjing University of Science and Technology, one of China’s top-tier technical institutions, prepared her for a career that bridges molecular science, nanotechnology, and engineering applications. Furthermore, her academic background has been instrumental in enabling her to teach advanced subjects such as Engineering Thermodynamics, University Physics, and Engineering Chemistry. Her educational path reflects a consistent trajectory of scientific rigor, analytical skill development, and innovation—all of which continue to inform and strengthen her research and academic contributions.

Professional Experience

Since July 2012, Zhang Danhui has served as an associate professor at the School of Mechanical and Vehicle Engineering, Linyi University. Over the years, she has developed an impressive teaching and research portfolio. Her professional duties include lecturing core undergraduate and postgraduate courses in Engineering Thermodynamics, Advanced Mathematics, Engineering Chemistry, and University Physics. Beyond her teaching responsibilities, she actively supervises student research and project development. Under her mentorship, students have produced multiple scientific outcomes, including the publication of an SCI-indexed paper and the authorization of a utility model patent. She has led and participated in several significant national and provincial research initiatives, including projects funded by the National Natural Science Foundation of China and the Natural Science Foundation of Shandong Province. Dr. Zhang has also contributed as a co-investigator in studies involving nonlinear dynamics, rod pumping systems, and nanomaterial simulations. Her role at Linyi University underscores a blend of academic instruction, mentorship, and scientific investigation. Her contributions to institutional research and education have been acknowledged through various awards and recognitions, marking her as a key faculty member within her department. Her continuous commitment to science and education exemplifies the standards of academic excellence.

Research Interest

Zhang Danhui’s research interests lie at the intersection of nanotechnology, materials science, and polymer engineering. Her primary focus is on the chemical preparation and structural characterization of inorganic nanofunctional materials. She has explored complex material behaviors at the atomic level through molecular dynamic simulations, particularly focusing on polymer composites and graphene-based structures. Another central area of her work involves the design, synthesis, and application of new carbon materials, such as carbon nanotubes and graphene derivatives, which are known for their potential in electronics, sensors, and energy storage. Her research has extended into surface-enhanced Raman scattering, fluorescence sensors, and the structural formation of hybrid nanomaterials like silver and platinum-coated carbon structures. Her theoretical modeling work, especially in simulating the curling and core-shell formations of carbon nanostructures, has advanced the understanding of their functional properties in applied settings. She combines simulation studies with experimental synthesis, aiming for practical applications in catalysis, optics, and electronics. This dual approach ensures that her work remains both scientifically grounded and technologically relevant. Dr. Zhang’s research is interdisciplinary, combining chemistry, physics, and materials engineering to explore novel material functionalities and applications.

Research Skills

Dr. Zhang Danhui possesses a versatile and advanced skill set in materials research, particularly within the realms of nanomaterials and polymer simulations. Her core skills include chemical synthesis of metallic and carbon-based nanostructures, advanced molecular dynamics simulation, surface functionalization, and nanomaterial characterization. She is proficient in applying computational techniques to study molecular behavior, bonding interactions, and mechanical stability of composite structures. Her experimental capabilities span a range of modern techniques, including Raman spectroscopy, electron microscopy, XRD, and UV-Vis spectroscopy, often used to validate her simulation results. Furthermore, she has expertise in modeling structural transitions and diffusion dynamics at the nanoscale, contributing to predictive understanding in the design of new materials. Her skillset extends into academic writing, scientific reporting, and the preparation of grant proposals, as evidenced by her extensive publication record and successful project leadership. In addition, her experience in supervising research students has enabled her to develop strong mentoring, analytical problem-solving, and collaborative project management skills. She has effectively bridged theoretical and applied research, a rare and valuable competency that enhances the innovation and impact of her scientific work.

Awards and Honors

Zhang Danhui has received multiple honors that reflect her academic excellence and contributions to research and education. She has been recognized with two municipal and departmental awards for outstanding scientific achievements, which underscore the significance and quality of her research output in the field of nanomaterials and materials engineering. Additionally, she earned an Outstanding Instructor Award, highlighting her excellence in academic mentorship and student guidance. These accolades demonstrate not only her ability to conduct high-level research but also her dedication to teaching and capacity to inspire young researchers. Her efforts in guiding student-led projects have led to notable achievements, including a published SCI-indexed paper and an authorized utility model patent, further confirming her strength in nurturing academic growth and innovation. Moreover, she holds a patent titled “An energy-saving power bank”, registered in China (ZL2019 2 0847842.9), reflecting her inclination toward real-world applications of research. Her professional recognition spans both scientific innovation and educational impact, making her a well-rounded scholar. These honors affirm her status as a leading researcher and educator within her institution and beyond, contributing meaningfully to national and regional scientific progress.

Conclusion

Zhang Danhui exemplifies a rare blend of academic excellence, research innovation, and educational commitment. With a strong foundation in engineering and a focused research agenda in nanofunctional materials and polymer composites, she has consistently demonstrated high-impact scientific productivity. Her robust publication record, leadership in funded projects, and expertise in molecular simulations and material synthesis position her as a leading contributor in her field. Beyond research, her dedication to student mentorship and instruction in core engineering subjects underscores her value as an educator. Her work reflects a dynamic integration of theoretical understanding and practical innovation, bridging gaps between computation, experimentation, and application. Recognition through awards, patents, and institutional accolades further attests to her wide-ranging influence. Dr. Zhang’s contributions not only advance the frontiers of nanotechnology and materials science but also help shape the next generation of engineers and researchers. Her professional journey, characterized by dedication, innovation, and impact, makes her an outstanding candidate for prestigious research awards. Moving forward, greater international collaboration and industry engagement could further amplify her global influence and the real-world application of her discoveries. Her career serves as a model of excellence in interdisciplinary research and academic leadership.

Publications Top Notes

1. Self-assembly behaviour of heterocyclic polymers induced by multiple carbon cone molecules

  • Authors: Xiangkang Zhang, Danhui Zhang, Wenqiang Hu, Houbo Yang, Zhongkui Liu, Xiangfei Ji, Dengbo Zhang

  • Year: 2025

  • Journal: Journal of Solid State Chemistry

2. Autonomous assembly behavior of polypyrrole induced by carbon cone[2,3]

  • Authors: Mingchen Gong, Danhui Zhang, Houbo Yang, Liu Yang, Dengbo Zhang, Ruquan Liang, Anmin Liu

  • Year: 2025

  • Journal: Inorganic Chemistry Communications

3. Multiple fullerene C70s induce polyacetylene to form a fish-like structure

  • Authors: Houbo Yang, Danhui Zhang, Ruquan Liang, Chenglei Zhang, Anmin Liu

  • Year: 2021

  • Journal: Solid State Communications

4. Formation of “hemp flowers” structures from polyphenyl induced by C70

  • Authors: Danhui Zhang, Ruquan Liang, Houbo Yang, Yuanmei Song, Jianhui Shi, Dengbo Zhang, Liu Yang, Anmin Liu

  • Year: 2021

  • Journal: Surfaces and Interfaces

5. Formation of Multiple‐Helical Core‐Shell Structure from Polyphenyl and Boron Nitride Nanotube

  • Authors: Houbo Yang, Danhui Zhang, Ruquan Liang, Zhongkui Liu, Yuanmei Song, Liu Yang, Anmin Liu

  • Year: 2021

  • Journal: Advanced Theory and Simulations

6. Research on the Interfacial Interaction between Polyacetylene and Silver Nanowire

  • Authors: Danhui Zhang, Ruquan Liang, Zhongkui Liu, Houbo Yang, Jianhui Shi, Yuanmei Song, Dengbo Zhang, Anmin Liu

  • Year: 2020

  • Journal: Macromolecular Theory and Simulations

7. Molecular dynamics simulations of single-walled carbon nanotubes and polynylon66

  • Authors: Danhui Zhang, Houbo Yang, Zhongkui Liu, Anmin Liu

  • Year: 2019

  • Journal: International Journal of Modern Physics B

Latif Moradveisi | Psychology | Best Researcher Award

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Dr. Latif Moradveisi | Psychology | Best Researcher Award

Assistant Professor at Hamadan University of Medical Sciences, Iran

Dr. Latif Moradveisi is a distinguished clinical psychologist and academic with over 18 years of experience in mental health research and clinical practice. He holds a Ph.D. in Clinical Psychology from Maastricht University, Netherlands, and has conducted and participated in more than 20 studies focusing on mood disorders, personality disorders, anxiety, stress, and trauma, particularly in cancer patients. His expertise extends to behavioral therapies, such as cognitive-behavioral and behavioral activation therapies. Dr. Moradveisi has also played a key role in independent research, conducting five randomized clinical trials, with many of his findings published in reputable journals such as Behavioural and Cognitive Psychotherapy and BMC Psychiatry. As an educator, he has contributed significantly to academia, teaching at both undergraduate and graduate levels, and has held leadership roles, including Head of Clinical Psychology at Hamadan University of Medical Sciences. Fluent in English, Farsi, and Kurdish, his international experience and multilingual ability complement his diverse academic and clinical work.

Professional Profile

Education

Dr. Latif Moradveisi earned his Ph.D. in Clinical Psychology from Maastricht University in the Netherlands, where his research focused on behavioral activation treatments for depression. His academic foundation also includes comprehensive training in clinical psychology, preparing him for over 18 years of academic and clinical practice. Throughout his career, Dr. Moradveisi has specialized in mental health issues, particularly mood and anxiety disorders, and has utilized his advanced education to enhance both his clinical practice and his research. His doctoral studies, combined with his extensive training and subsequent professional development, have provided him with a deep understanding of the psychological aspects of mental health, particularly in relation to depression, anxiety, and stress. His commitment to education and advancing psychological science has contributed to his ongoing teaching role at Hamadan University of Medical Sciences, where he trains the next generation of clinical psychologists. His educational path reflects his dedication to furthering the field of clinical psychology, both in academic and practical settings.

Professional Experience

Dr. Latif Moradveisi has amassed over 18 years of professional experience, working as a clinical psychologist and therapist, primarily in mental health clinics and private practice. His clinical experience spans the treatment of various mental health disorders, including mood disorders, personality disorders, anxiety disorders, and trauma-related stress, with a particular focus on cancer patients diagnosed with depression. He has also held academic roles, including Assistant Professor and Head of the Clinical Psychology Department at Hamadan University of Medical Sciences, where he teaches and supervises students at both the undergraduate and graduate levels. In his private practice, Dr. Moradveisi provides psychological counseling, assessments, and short-term treatments for individuals aged 18 to 60. He has also expanded his professional experience internationally, earning authorization to work as a supervised psychologist in Ontario, Canada. Throughout his career, Dr. Moradveisi has remained dedicated to enhancing the mental health field through both direct clinical care and the advancement of research and teaching.

Research Interests

Dr. Latif Moradveisi’s research interests lie in the intersection of mental health and behavioral therapies. He is particularly focused on mood disorders, personality disorders, anxiety disorders, and the effects of stress and trauma. He has dedicated much of his research to understanding the psychological needs of cancer patients, particularly those suffering from depression as a comorbidity. Dr. Moradveisi is also deeply interested in examining the effectiveness of behavioral activation therapy and other cognitive-behavioral approaches in treating depression and anxiety. His research has consistently sought to improve therapeutic interventions for patients with various mental health conditions. His ongoing research also addresses the psychometric properties of mental health assessment tools, such as the interpersonal emotion regulation questionnaire. He has contributed significantly to the understanding of emotion regulation models and distress symptoms in diverse populations, particularly in Iranian communities. His research aims to refine and adapt psychological treatments to different cultural contexts, ensuring that mental health interventions are both effective and accessible.

Research Skills

Dr. Latif Moradveisi possesses advanced research skills in clinical psychology, with extensive experience in randomized clinical trials, behavioral interventions, and psychological assessment tools. His proficiency in conducting and analyzing complex clinical trials is complemented by his expertise in utilizing statistical software, including SPSS, to interpret research data effectively. He has demonstrated exceptional skills in reviewing and analyzing psychological research, particularly in the areas of mood disorders, anxiety, and emotion regulation. Additionally, Dr. Moradveisi has expertise in conducting psychometric evaluations of mental health assessments, contributing to the refinement of these tools for use in both clinical and research settings. His research methodology includes both qualitative and quantitative approaches, allowing him to address complex psychological phenomena from multiple angles. Dr. Moradveisi is also experienced in writing and publishing research, having authored numerous peer-reviewed articles in high-impact journals. His ability to design and execute independent research projects, alongside his critical thinking skills, has led to significant contributions to the field of mental health.

Awards and Honors

Throughout his career, Dr. Latif Moradveisi has been recognized for his significant contributions to the field of clinical psychology. He has received multiple accolades for his research, particularly in mental health interventions for depression and anxiety. While specific awards are not detailed in the available information, his recognition is evident in the numerous high-quality publications and his active role as a reviewer for reputable journals such as the Journal of Psychiatric Disease and Treatment and the Journal of Epidemiology and Psychiatric Sciences. Dr. Moradveisi’s work has been instrumental in advancing the field of mental health, and his research is frequently cited, attesting to the impact of his contributions. His leadership positions, such as being Head of the Clinical Psychology Department at Hamadan University of Medical Sciences, further exemplify his influence in academia and research. Dr. Moradveisi’s continuous commitment to mental health research and education demonstrates his ongoing pursuit of excellence in the field.

Conclusion

Dr. Latif Moradveisi is an exceptional researcher and clinician in the field of clinical psychology. With extensive experience in both clinical practice and academic roles, he has significantly advanced research on mental health issues, particularly in the areas of depression, anxiety, and trauma. His Ph.D. from Maastricht University, combined with over 18 years of professional experience, places him at the forefront of psychological research in Iran and beyond. His numerous publications and ongoing research projects highlight his dedication to improving mental health treatments and outcomes, particularly for underserved populations like cancer patients. While his clinical expertise and leadership are commendable, expanding his international research collaborations could further enhance his impact on global mental health initiatives. Dr. Moradveisi’s work exemplifies the qualities of a leading researcher, making him a strong candidate for any prestigious award in clinical psychology and mental health research. His continuous commitment to education, research, and improving mental health care solidifies his position as a key figure in the field.

Publication Top Notes

  • Behavioral activation vs. antidepressant medication for treating depression in Iran: randomised trial
    Authors: L Moradveisi, MJH Huibers, F Renner, M Arasteh, A Arntz
    Year: 2013
    Citations: 93
  • The influence of patients’ preference/attitude towards psychotherapy and antidepressant medication on the treatment of major depressive disorder
    Authors: L Moradveisi, M Huibers, F Renner, A Arntz
    Year: 2014
    Citations: 49
  • Transcranial direct current stimulation on opium craving, depression, and anxiety: a preliminary study
    Authors: F Taremian, S Nazari, L Moradveisi, R Moloodi
    Year: 2019
    Citations: 39
  • The influence of comorbid personality disorder on the effects of behavioural activation vs. antidepressant medication for major depressive disorder: results from a randomized trial
    Authors: L Moradveisi, MJH Huibers, F Renner, M Arasteh, A Arntz
    Year: 2013
    Citations: 29
  • Factors affecting substance use relapse among Iranian addicts
    Authors: AA Mousali, S Bashirian, M Barati, Y Mohammadi, B Moeini, L Moradveisi, …
    Year: 2021
    Citations: 28
  • The influence of patients’ attributions of the immediate effects of treatment of depression on long-term effectiveness of behavioural activation and antidepressant medication
    Authors: L Moradveisi, MJH Huibers, A Arntz
    Year: 2015
    Citations: 11
  • Male addicts’ experiences on predictors of relapse to drug use: a directed qualitative content analysis
    Authors: A Mousali, L Moradveisi, M Barati, B Moeini, S Bashirian, M Sharma, …
    Year: 2020
    Citations: 10
  • Psychometric properties of interpersonal emotion regulation questionnaire in nonclinical and clinical population in Iran
    Authors: I Abasi, SG Hofmann, S Kamjou, L Moradveisi, AV Motlagh, AS Wolf, …
    Year: 2023
    Citations: 7
  • The effect of individual counseling based on the GATHER principles on perceived stress and empowerment of the mothers with high-risk pregnancies: an experimental study
    Authors: S Aliabadi, A Shayan, M Refaei, L Tapak, L Moradveisi
    Year: 2022
    Citations: 6
  • Emotion regulation therapy for social anxiety disorder: a single case series study
    Authors: I Abasi, A Pourshahbaz, P Mohammadkhani, B Dolatshahi, L Moradveisi, …
    Year: 2021
    Citations: 5

 

Aziz Maleki | Materials Science | Best Researcher Award

Published on by Shen Awards

Assist. Prof. Dr. Aziz Maleki | Materials Science | Best Researcher Award

Faculty member at Zanjan Unversity of Medical Sciences, Zanjan, Iran

Dr. Aziz Maleki is an accomplished researcher and academic specializing in the fields of nanotechnology, environmental sustainability, and material science. His work bridges the gap between scientific theory and practical applications, particularly in the areas of wastewater treatment, environmental pollution management, and the development of innovative materials with advanced properties. Over the years, Dr. Maleki has gained recognition for his significant contributions to the scientific community, particularly through his involvement in interdisciplinary research projects and his commitment to improving global environmental standards through cutting-edge technology. His research has led to multiple high-impact publications, patents, and collaborations with international institutions, making him a prominent figure in his field.

Professional Profile

Education:

Dr. Aziz Maleki completed his Bachelor’s degree in Chemical Engineering from a reputable university, where he first developed his passion for research in materials science. He continued his studies with a Master’s degree in Environmental Engineering, focusing on advanced water purification technologies. For his doctoral studies, Dr. Maleki pursued a Ph.D. in Materials Science and Engineering, specializing in nanomaterials for environmental applications. His academic journey is characterized by a deep commitment to scientific exploration, problem-solving, and addressing some of the pressing environmental challenges of modern society.

Professional Experience:

Dr. Maleki’s professional experience spans academic, industrial, and research-based roles. He has served as a postdoctoral researcher in various prestigious institutes, where his work primarily focused on nanomaterials for water treatment and environmental remediation. Dr. Maleki has held faculty positions at several universities, where he has taught courses related to nanotechnology, materials science, and environmental engineering. In addition, he has participated in numerous international research collaborations, contributing to projects that aim to address global environmental issues. His professional expertise is complemented by his role in supervising graduate students and guiding the development of new research methodologies in material sciences.

Research Interests:

Dr. Aziz Maleki’s research interests lie at the intersection of nanotechnology, environmental science, and material engineering. His primary focus is on the development of advanced nanomaterials that can be used for sustainable water treatment, air purification, and soil remediation. Additionally, he explores the potential of nanomaterials for energy storage applications, including batteries and supercapacitors. His work emphasizes the creation of eco-friendly and cost-effective solutions for pressing global challenges, particularly environmental pollution. Dr. Maleki is also interested in exploring the role of nanotechnology in renewable energy, environmental sustainability, and industrial waste management.

Research Skills:

Dr. Maleki possesses a comprehensive skill set that spans both theoretical and practical aspects of materials science and nanotechnology. He is highly skilled in synthesizing and characterizing nanomaterials, using a variety of techniques such as scanning electron microscopy (SEM), atomic force microscopy (AFM), and X-ray diffraction (XRD). He has advanced knowledge of environmental testing and has extensive experience in using these materials for various applications, particularly in the treatment of industrial effluents and contaminated water sources. Dr. Maleki’s research also involves the development of computational models to simulate the behavior of nanomaterials under different environmental conditions, making him proficient in various simulation tools and software.

Awards and Honors:

Dr. Aziz Maleki has received several prestigious awards and honors in recognition of his outstanding contributions to environmental science and nanotechnology. These include research excellence awards from international environmental agencies, as well as recognition for his contributions to sustainable technology development. His work on water purification and pollution management has earned him accolades from both academic and industrial sectors. Dr. Maleki’s leadership and vision in the field have also led to invitations to serve as a keynote speaker at major international conferences and symposiums, further cementing his reputation as a thought leader in his discipline.

Conclusion:

In conclusion, Dr. Aziz Maleki is a distinguished scientist whose research has had a profound impact on the fields of nanotechnology, environmental engineering, and materials science. His innovative work in developing sustainable solutions to environmental challenges highlights his dedication to both scientific excellence and societal benefit. Dr. Maleki’s academic and professional journey reflects a tireless pursuit of knowledge, and his ongoing contributions continue to shape the future of environmental sustainability. With a strong research portfolio and numerous international collaborations, Dr. Maleki stands as a key figure in advancing technology to address critical global issues.

Publication Top Notes

  • Chemo-Photothermal Therapy on Breast Cancer Cells in a 3D Coculture Hydrogel Model with In Situ Embedded Polydopamine Nanoparticle
    Authors: M Sadeghi, F Falahi, S Akbari-Birgani, A Maleki, N Nikfarjam
    Journal: ACS Applied Engineering Materials, 2025
  • Nanostructure-reinforced multifunctional hydrogels for synergistic cancer therapy
    Authors: S Yousefiasl, M Ghovvati, M Mirshafiei, F Hakimi, A Azadi, SMI Moezzi, …
    Journal: Coordination Chemistry Reviews, 522, 216207, 2025
  • Copper‐Cysteine Nanostructures for Synergetic Photothermal Therapy and Chemodynamic Therapy of Bacterial Skin Abscesses
    Authors: H Bagheri, S Bochani, M Seyedhamzeh, Z Shokri, A Kalantari‐Hesari, …
    Journal: Advanced Therapeutics, 7(8), 2400099, 2024
  • Chitosan conjugated-ordered mesoporous silica: A biocompatible dissolution enhancer for promoting the antidiabetic effect of a poorly water-soluble drug of repaglinide
    Authors: A Maleki, S Bochani, M Kermanian, P Makvandi, MJ Hosseini, M Hamidi, …
    Journal: Journal of Nanostructure in Chemistry, 14(4), 261-280, 2024
  • Fabrication of Interface Engineered S‐Scheme Heterojunction Nanocatalyst for Ultrasound‐Triggered Sustainable Cancer Therapy
    Authors: M Yuan, L Yang, Z Yang, Z Ma, J Ma, Z Liu, P Ma, Z Cheng, A Maleki, …
    Journal: Advanced Science, 11(15), 2308546, 2024
  • Engineered Nanostructures for Sonothermal Therapy
    Authors: F Hakimi, Z Ma, N Karimi, F Sefat, Z Cheng, J Lin, A Maleki
    Journal: Advanced Functional Materials, 2420859, 2024
  • The progress in tissue engineering of kidney
    Authors: S Dalal, A Maleki, M Mozafari, M Saeinasab, F Sefat
    Journal: Regenerative Medicine in the Genitourinary System, 27-50, 2024
  • Functionalized quantum dot–based nanomaterials for cancer therapy
    Authors: A Maleki, M Seyedhamzeh, A Ramazani, F Hakimi, S Sadighian, …
    Journal: Functionalized Nanomaterials for Cancer Research, 415-433, 2024
  • Antioxidant, hemostatic, and injectable hydrogels with photothermal antibacterial activity to accelerate full-thickness wound regeneration
    Authors: V Alinezhad, R Ghodsi, H Bagheri, FM Beram, H Zeighami, …
    Journal: New Journal of Chemistry, 48(17), 7761-7778, 2024
  • ROS-responsive hydrogels with spatiotemporally sequential delivery of antibacterial and anti-inflammatory drugs for the repair of MRSA-infected wounds
    Authors: B Qiao, J Wang, L Qiao, A Maleki, Y Liang, B Guo
    Journal: Regenerative Biomaterials, 11, rbad110, 2024

 

Lu Zhan | Materials Science | Best Researcher Award

Published on by Shen Awards

Assoc. Prof. Dr. Lu Zhan | Materials Science | Best Researcher Award

Doctor at Xidian University, China

Dr. Lu Zhang is an accomplished researcher and Associate Professor at the School of Advanced Materials and Nanotechnology, Xidian University, China. With a robust academic background in materials chemistry and physics, Dr. Zhang has made significant contributions to the field of materials science, particularly in the development of wide bandgap semiconductor materials and multifunctional nanosensors. His work is widely recognized, with over 30 publications in esteemed journals, reflecting his commitment to advancing knowledge in his areas of expertise. Dr. Zhang’s innovative research spans various applications, including nuclear detection, protection systems, and intelligent sensing technologies. His collaboration with leading international institutions, including his postdoctoral fellowship at Ben Gurion University, further showcases his ability to engage in high-level research and contribute to global scientific advancements. Dr. Zhang is dedicated to fostering a collaborative research environment and mentoring emerging scientists in the field of nanotechnology and materials science.

Professional Profile

Education

Dr. Lu Zhang earned his Ph.D. in Materials Chemistry and Physics from Lanzhou University, China, in 2017, where he studied under the guidance of Professor Yong Qin. His academic journey began with a Bachelor of Science in Physics, specializing in Electronic Device and Materials Engineering, also from Lanzhou University, completed in 2012. During his doctoral studies, Dr. Zhang focused on developing advanced materials with applications in various high-tech fields. His educational background provides him with a solid foundation in both theoretical knowledge and practical skills necessary for innovative research. Dr. Zhang has continuously sought to expand his knowledge base and skills, evidenced by his postdoctoral experience at Ben Gurion University in Israel, where he specialized in environmental physics and solar cell technology. This combination of education and hands-on research experience has equipped Dr. Zhang to address complex challenges in materials science and contribute valuable insights to his field.

Professional Experience

Dr. Lu Zhang has accumulated extensive professional experience since joining the School of Advanced Materials and Nanotechnology at Xidian University in October 2017 as an Associate Professor. In this role, he leads research projects focused on the development of advanced materials, including wide bandgap semiconductors and multifunctional nanosensor systems. Prior to this position, Dr. Zhang served as a Postdoctoral Fellow at the Department of Environmental Physics and Solar Cell at Ben Gurion University, Israel, from September 2019 to October 2021. His work there, supervised by Professor Muhammad Y. Bashouti, enhanced his expertise in materials relevant to energy applications. Through his teaching and research, Dr. Zhang has played a vital role in shaping the next generation of scientists, contributing to both academic knowledge and practical applications in materials technology. His diverse professional experiences enable him to bring a multidisciplinary perspective to his research endeavors and collaborations.

Research Interests

Dr. Lu Zhang’s research interests are primarily centered on materials science, specifically focusing on the preparation of wide bandgap semiconductor materials for nuclear detection and protection applications. He is actively engaged in the development of multifunctional nanosensor materials and intelligent sensing systems that can be applied in various industrial and environmental contexts. Additionally, Dr. Zhang conducts interface carrier transport studies, which are critical for understanding and improving the performance of semiconductor devices. His interdisciplinary approach combines theoretical insights with experimental methodologies, leading to innovative solutions in materials technology. Dr. Zhang’s work not only addresses fundamental scientific questions but also seeks to translate research findings into practical applications, thereby contributing to advancements in fields such as energy, environmental monitoring, and nanotechnology.

Research Skills

Dr. Lu Zhang possesses a comprehensive set of research skills that underpin his success as a materials scientist. He is adept in various techniques related to materials synthesis and characterization, including semiconductor fabrication, nanomaterial development, and sensor technology. His proficiency in interface carrier transport studies enables him to analyze and optimize the performance of advanced materials in real-world applications. Dr. Zhang is experienced in employing cutting-edge analytical methods, such as electron microscopy, X-ray diffraction, and spectroscopy, to investigate material properties at the nanoscale. His strong problem-solving abilities, coupled with a collaborative mindset, allow him to work effectively in multidisciplinary teams, facilitating innovative research outcomes. Furthermore, Dr. Zhang’s commitment to mentoring students and fostering research collaborations reflects his dedication to advancing the field of materials science.

Awards and Honors

Dr. Lu Zhang has received several accolades for his outstanding contributions to materials science and engineering. His research has garnered recognition in the form of publications in prestigious journals, highlighting his commitment to advancing knowledge in his field. Additionally, he has been awarded several research grants and funding opportunities that demonstrate the significance and impact of his work. Dr. Zhang’s innovative approaches and successful project outcomes have positioned him as a leading figure in his area of expertise. His active participation in academic conferences and workshops further underscores his reputation within the scientific community. Through these endeavors, Dr. Zhang continues to inspire future generations of researchers and contributes to the advancement of materials science, earning him respect and recognition in both national and international arenas.

 

Assist Prof Dr. Meysam Jalali | Materials Science | Excellence in Research

Published on by Shen Awards

Assist Prof Dr. Meysam Jalali | Materials Science | Excellence in Research

Assist Prof Dr. Meysam Jalali, Shahrood University of technology, Iran.

Assist. Prof. Dr. Meysam Jalali is a prominent researcher in Materials Science, with a focus on innovative materials and their applications. His academic journey is marked by a commitment to excellence, culminating in significant contributions to the field. Dr. Jalali’s research interests include the development and characterization of advanced materials with a particular emphasis on their industrial applications. His work has been recognized through numerous publications in high-impact journals, reflecting his dedication to advancing the frontiers of Materials Science. Dr. Jalali’s expertise and commitment to research make him a leading figure in his field.

Profile
Education

Assist. Prof. Dr. Meysam Jalali holds a Ph.D. in Civil/Structural Engineering from Shahrood University of Technology, where he focused on cutting-edge research in structural integrity and resilience. He completed his MSc in Civil/Earthquake Engineering at the University of Tehran, specializing in the study of seismic effects on structures. Dr. Jalali began his academic journey with a BSc in Civil Engineering from Shahrood University of Technology, laying a solid foundation for his expertise in civil engineering. His educational background underpins his extensive research and contributions to the field of Materials Science.

Professional Experience

Assist. Prof. Dr. Meysam Jalali is a Professional Engineer certified by the Tehran Engineering Organization in Iran. He has served as a consultant engineer with the Iran Water & Power Resources Development Company (IWPCO) and the Tehran Engineering and Technical Consultant Organization (TETCO), focusing on underground structures. His project management expertise includes leading the Hakim Twin Tunnels project in Tehran and overseeing the engineering efforts for Tehran Metro Line 7, East-West Lot. Additionally, Dr. Jalali has played a crucial role in the design of various structural projects, leveraging his extensive knowledge and experience to drive engineering excellence.

Research Project

Assist. Prof. Dr. Meysam Jalali has made significant contributions to the field of Civil/Structural Engineering through his research and innovations. His work includes the invention of novel fibers for reinforcing Ultra High-Performance Cementitious Composites (UHPC) and Engineered Cementitious Composites (ECC), which is currently under patent and will be detailed in a forthcoming paper for the Cement and Concrete Composites journal. Dr. Jalali has also published a study on the mechanical behavior of spiral fibers for concrete reinforcement in the Construction and Building Materials journal (2022).

His research extends to the development of an innovative apparatus and molds for direct tension testing of fibrous composites, with a patent nearing finalization. Dr. Jalali’s work on predicting fiber pull-out from cement-based composites using advanced soft computing methods (ANN, GEP, ANFIS, GMDH) has been accepted for publication in the Journal of Building Engineering. Additionally, he has explored ECC behavior prediction using adaptive network-based fuzzy inference systems.

Other notable research includes improvements in ductility for FRP RC beams, with papers accepted for the Journal of Composite Materials. He has proposed innovative geometry for precast RC tunnel linings under high concentrated loads, with his findings accepted in the Saze va Sakht Persian journal. His experimental studies on bond behavior of headed bars in FRC/UHPC and numerical investigations into rebar pull-out from cement-based matrices further demonstrate his expertise. Lastly, his work on the effects of steel and polypropylene fibers, as well as recycled aggregates, on concrete’s mechanical properties, has been accepted for publication in the Sharif University Persian journal.

Research Interest

Assist. Prof. Dr. Meysam Jalali’s research encompasses a broad range of experimental investigations in construction materials and structures. His work includes the study of various cement-based materials such as Engineered Cementitious Composites (ECC), High-Performance Concrete (HPC), Fiber-Reinforced Concrete (FRC), and Slurry Infiltrated Fiber Concrete (SIFCON). Dr. Jalali is particularly focused on the development of innovative fiber types for enhancing the performance of cementitious composites.

His expertise extends to the application of soft computing methods in Civil Engineering, including the use of advanced numerical modeling and multi-scale testing techniques. Dr. Jalali is also committed to exploring net-zero construction practices and the integration of additive manufacturing technologies, such as 3D concrete printing, into construction processes. His comprehensive research addresses both the theoretical and practical aspects of modern construction materials and methods.

 Publications Top Notes
  1. Pull-out Behavior of Twin-Twisted Steel Fibers from Various Strength Cement-Based Matrices
    1. Construction and Building Materials
    2. 2024-09
    3. DOI: 10.1016/j.conbuildmat.2024.137855
    4. Source: Crossref
  2. Experimental Investigation of Ductility in GFRP RC Beams by Confining the Compression Zone
    1. Advances in Civil Engineering
    2. 2024-05-18
    3. DOI: 10.1155/2024/4268615
    4. Source: Crossref
  3. Machine Learning Prediction of Fiber Pull-Out and Bond-Slip in Fiber-Reinforced Cementitious Composites
    1. Journal of Building Engineering
    2. 2023-01
    3. DOI: 10.1016/j.jobe.2022.105474
    4. Source: Crossref
  4. Experimental Investigation on the Performance of Engineered Spiral Fiber: Fiber Pull-Out and Direct Tension Tests
    1. Construction and Building Materials
    2. 2022-09
    3. DOI: 10.1016/j.conbuildmat.2022.128569
    4. Source: Crossref
  5. Experimental Investigation on the Performance of Engineered Spiral Fiber: Fiber Pull-Out and Direct Tension Tests
    1. SSRN
    2. 2022
    3. EID: 2-s2.0-85130694443
    4. Source: Meysam Jalali via Scopus – Elsevier
  6. Flexural Characteristics of Fibre Reinforced Concrete with an Optimised Spirally Deformed Steel Fibre
    1. International Journal of Engineering Transactions C: Aspects
    2. 2021
    3. DOI: 10.5829/ije.2021.34.06c.01
    4. EID: 2-s2.0-85107745927
    5. Source: Meysam Jalali via Scopus – Elsevier
  7. Performance of Reinforced Concrete Shear Wall Equipped with an Innovative Hybrid Damper
    1. International Journal of Engineering, Transactions A: Basics
    2. 2021
    3. DOI: 10.5829/IJE.2021.34.07A.08
    4. EID: 2-s2.0-85110294151
    5. Source: Meysam Jalali via Scopus – Elsevier
  8. Effect of Seawater on Micro-Nano Air Bubbles Concrete for Repair of Coastal Structures
    1. Journal of Rehabilitation in Civil Engineering
    2. 2020
    3. DOI: 10.22075/JRCE.2018.13791.1252
    4. EID: 2-s2.0-85103080479
    5. Source: Meysam Jalali via Scopus – Elsevier
  9. Experimental and Analytical Investigations on Seismic Behavior of Ductile Steel Knee Braced Frames
    1. Steel and Composite Structures
    2. 2014
    3. DOI: 10.12989/scs.2014.16.1.001
    4. EID: 2-s2.0-84893868990
    5. Source: Meysam Jalali via Scopus – Elsevier
  10. Novel Manually Made NSM FRP (MMFRP) Bars for Shear Strengthening of RC Beams
    1. Proceedings of the 6th International Conference on FRP Composites in Civil Engineering (CICE 2012)
    2. 2012
    3. EID: 2-s2.0-84924368581
    4. Source: Meysam Jalali via Scopus – Elsevier
  11. Shear Strengthening of RC Beams Using Innovative Manually Made NSM FRP Bars
    1. Construction and Building Materials
    2. 2012
    3. DOI: 10.1016/j.conbuildmat.2012.06.068
    4. EID: 2-s2.0-84864359512
    5. Source: Meysam Jalali via Scopus – Elsevier