Tag: Best Materials Science Award

Jiaqi Wang | Materials Science | Excellence in Research Award

Published on by WSA Awards

Prof. Jiaqi Wang | Materials Science | Excellence in Research Award

University of Hong Kong | Hong Kong

Prof. Jiaqi Wang is a Research Assistant Professor in the Department of Chemistry at The University of Hong Kong and an Associate Research Fellow at the University of Hong Kong Shenzhen Institute of Research and Innovation. His research expertise spans molecular dynamics simulation, machine learning, and computational materials science, with a strong focus on accelerating the discovery and rational design of functional materials. With over a decade of research experience, his work bridges mechanical engineering, chemistry, and artificial intelligence, contributing to both fundamental understanding and practical innovation in materials and biomolecular systems. Since 2020, Dr. Wang has been internationally recognized for pioneering data-driven approaches to the de novo design of self-assembling peptides across extremely large chemical spaces. He developed a human-in-the-loop computational framework that significantly improved the screening accuracy of hydrogel-forming peptides, addressing long-standing challenges related to data scarcity and model reliability. His subsequent work introduced Transformer-based deep learning architectures capable of exploring peptide sequence spaces exceeding ten trillion candidates, enabling unprecedented scalability in peptide discovery. More recently, he systematically decoded aggregation rules governing short peptides across complete sequence spaces, providing a robust theoretical foundation for predictive peptide self-assembly.

Citation Metrics (Google Scholar)

700

500

300

100

0

Citations
657

Citations

Documents

h-index

View Google Scholar Profile

Featured Publications

Francisco Javier GOMEZ CANO | Materials Science | Editorial Board Member

Published on by WSA Awards

Mr. Francisco Javier GOMEZ CANO | Materials Science | Editorial Board Member

Le Mans Université-CINVESTAV | France

Francisco Javier-Gómez Cano is a multidisciplinary researcher currently pursuing a dual PhD in Physics at Le Mans Université, France (2021–present) and in Nanoscience and Nanotechnology at CINVESTAV-IPN, Mexico (2020–present). His research focuses on the design, synthesis, and characterization of TiO₂–graphene oxide (GO) nanocomposites, with particular emphasis on photocatalysis, water remediation, adsorption mechanisms, and ceramic-based functional materials. With a strong background spanning ceramic engineering and environmental engineering, he integrates experimental materials science with computational approaches, including density functional theory (DFT) to elucidate bandgap modulation, interfacial interactions, and photocatalytic pathways in advanced composites. Francisco has authored and co-authored more than 10 peer-reviewed research papers, including contributions to Journal of Nanomaterials, Ceramics International, Journal of Environmental Chemical Engineering, Crystals, and IEEE conference proceedings. His work collectively addresses photocatalytic degradation of environmental pollutants, sol-gel and dip-coating thin films, graphene oxide chemistry, perovskite film optimization, and metal oxide nanostructures. His publications have gained growing visibility within the materials science and nanotechnology communities, supported by international collaborations with researchers in France, Mexico, Argentina, India, and Poland. He has presented his research in multiple international forums, including the International Materials Research Congress (IMRC), the International Conference on Electrical Engineering, Computing Science, and Automatic Control (CCE), and the SAM Congress. He has served as session chair, co-organizer, and invited speaker across several events, reflecting his leadership in academic dissemination. His membership roles include the Royal Society of Chemistry (RSC) and the Mexican Materials Society, and he previously served as President of the CINVESTAV Student Council.

Profiles: Scopus | ORCID

Featured Publications

Cano, F. J., Sánchez-Albores, R., Ashok, A., Escorcia-García, J., Cruz-Salomón, A., Reyes-Vallejo, O., Sebastian, P. J., & Velumani, S. (2025). Carica papaya seed-derived functionalized biochar: An environmentally friendly and efficient alternative for dye adsorption. Journal of Materials Science: Materials in Electronics.

Aguila-Rosas, J., Cano, F. J., Nagaya, A., Quirino-Barreda, C. T., Martínez Ortiz, M. de J., Guzmán Vargas, A., Ibarra, I. A., & Lima, E. (2025). MOF-composites for adsorption and degradation of contaminants in wastewater. Chemical Communications.

Ashok, A., Acosta, D., Camarillo, E., Cano, F. J., Reyes-Vallejo, O., & Olvera, M. D. L. L. (2025). Sustainable design on manufacturing V₂O₅ nanoparticles and analysis of their material properties for CO gas sensors. Advances in Natural Sciences: Nanoscience and Nanotechnology.

Adhikari, A., Acosta Najarro, D. R., Reyes-Gasga, J., Camarillo Garcia, E., Merino Alama, T. K., Reyes-Vallejo, O., Cano, F. J., & Olvera Amador, M. de la L. (2025). Preparation and characterization of vanadium–titanium oxide thin films via the evaporation technique followed by the post-annealing treatment. Materials Chemistry and Physics.

Reyes-Vallejo, O., Cano, F. J., Sánchez-Albores, R., Luévano-Hipólito, E., Serrano-Ramirez, R. P., Hernández-Cruz, M. C., Valencia, D., Torres-Martínez, L. M., & Velumani, S. (2025). Sustainable combustion synthesis of BiVO₄ using orange peel for photocatalytic applications. Journal of Materials Science: Materials in Electronics.

Jing Ruan | Materials Science | Editorial Board Member

Published on by WSA Awards

Assoc Prof Dr. Jing Ruan | Materials Science | Editorial Board Member

Shanghai Jiao Tong University School of Medicine | China

Dr. Jing Ruan is an Associate Professor in the Department of Ophthalmology at the Shanghai Jiao Tong University School of Medicine and the Affiliated Ninth People’s Hospital. She earned her Ph.D. in Biomedical Engineering from Shanghai Jiao Tong University and completed earlier degrees in Materials Science & Engineering (B.S.) and Applied Chemistry (M.S.). Her research trajectory spans materials science, biomedical engineering, ophthalmology, and translational nanomedicine. Prior to her academic appointment, she contributed to drug discovery research at Lilly China Research and Development Center, strengthening her foundation in therapeutic innovations. Dr. Ruan’s research focuses on the design of implantable biomaterials and the molecular mechanisms underlying cellular responses. She is internationally recognized for her work in ocular oncology, particularly the epigenetic and pathogenic processes driving melanoma progression. Her interdisciplinary expertise extends to nanotechnology-based targeted cancer therapies, including gene nanocarriers, multimodal theranostic nanoprobes, and nano–immune adjuvants. Over the past five years, she has authored numerous high-impact publications in Acta Biomaterialia, Nano Today, Oncogene, Clinical and Translational Medicine, Bioactive Materials, and Advanced Science, reflecting significant contributions to cancer therapeutics, biomimetic scaffolds, nanotoxicology, and photodynamic therapy. Her collective body of work exceeds dozens of peer-reviewed papers, many of which involve collaborations with leading scientists such as Kam W. Leong, X.J. Loh, and X. Fan, underscoring her strong interdisciplinary and international research partnerships. Her research excellence has been recognized through multiple prestigious awards, including the Pujiang Award (2021), Rising Star Award (2017), and Outstanding Doctoral Dissertation Award (2016). Earlier distinctions such as the Young Artist Award and the First Ruth Mulan Chu Chao Scholarship highlight her longstanding academic merit.

Profiles: Scopus

Featured Publications

1. Ma, Y., Lin, H., Wang, P., Yang, H., Yu, J., Tian, H., Li, T., Ge, S., Wang, Y., Jia, R., Leong, K. W., & Ruan, J. (2022). A miRNA-based gene therapy nanodrug synergistically enhances pro-inflammatory antitumor immunity against melanoma. Acta Biomaterialia.

2. Ruan, J., Li, F., Tian, H., Yu, J., Deng, H., Ge, S., & Leong, K. W. (2022). A cascade FRET photosensitizer that enhances photodynamic therapy for ocular melanoma. Nano Today, 47, 101684.

3. Zhuang, A., Chai, P., Wang, S., Zuo, S., Yu, J., Jia, S., Ge, S., Jia, R., Zhou, Y., Shi, W., Xu, X., Ruan, J., & Fan, X. (2022). Metformin promotes histone deacetylation of optineurin and suppresses tumour growth through autophagy inhibition in ocular melanoma. Clinical and Translational Medicine, 12(1), e660.

4. Gu, X., Zhuang, A., Yu, J., Chai, P., Jia, R., & Ruan, J. (2022). Phase separation drives tumor pathogenesis and evolution: All roads lead to Rome. Oncogene, 41(11), 1527–1535.

5. Tian, H., Shi, H., Yu, J., Ge, S., & Ruan, J. (2022). Biophysics role and biomimetic culture systems of ECM stiffness in cancer EMT. Global Challenges, 6(6), 2100094.

Maoting Xia | Materials Science | Best Researcher Award

Published on by WSA Awards

Dr. Maoting Xia | Materials Science | Best Researcher Award

Hunan University | China

Dr. Maoting Xia is an emerging scholar in advanced electrochemical energy storage, specializing in the fundamental understanding and optimization of next-generation secondary battery systems. His work spans safe and sustainable aqueous batteries, electrolyte innovation, and high-energy-density lithium- and potassium-based storage technologies. With strong interdisciplinary training across physics, materials engineering, and polymer science, Dr. Xia has built a diverse research portfolio that integrates mechanistic studies, structural characterization, and device-level performance evaluation. He has authored 42 scientific publications, accumulated 2,740 citations, and achieved an impressive h-index of 27, reflecting the global reach and influence of his contributions. Dr. Xia’s research has led to high-impact publications in leading journals including Energy & Environmental Science, Advanced Energy Materials, Advanced Functional Materials, Chemical Engineering Journal, Materials Today, and Small Methods, with several works recognized as Highly Cited and Hot Papers. His notable achievements include pioneering hydrogen-bond regulation strategies for hybrid electrolytes, advancing interphase engineering for high-voltage potassium-ion batteries, and designing innovative aqueous potassium, ammonium, and metal–sulfur battery chemistries. Beyond his individual accomplishments, Dr. Xia collaborates extensively with national and international research teams, contributing to multi-institutional studies and co-authoring scholarly works with experts across electrochemistry, materials physics, and device engineering. His involvement in the development of an electrochemical monograph further demonstrates his commitment to scholarly dissemination and educational impact. Dr. Xia’s research addresses pressing global challenges surrounding renewable energy storage, sustainable battery materials, and the safety of large-scale electrochemical systems. Through a combination of scientific rigor, creativity, and multidisciplinary collaboration, he continues to advance fundamental knowledge while contributing to the development of practical energy solutions with societal, technological, and environmental relevance.

Profiles: Scopus 

Featured Publications

Xia, M., Fu, H., Lin, K., Rao, A. M., Cha, L., Liu, H., Zhou, J., Wang, C., & Lu, B. (2024). Hydrogen-bond regulation in organic/aqueous hybrid electrolyte for safe and high-voltage K-ion batteries. Energy & Environmental Science, 17, 1255–1265.

Xia, M., Zhou, J., & Lu, B. (2025). Comprehensive insights into aqueous potassium-ion batteries. Advanced Energy Materials, 15, 2404032.

Zhang, J., Shen, M., Xia, M., Fu, H., Ding, C., Rao, A. M., Zhou, J., Fan, L., & Lu, B. (2022). Dual-halide electrode–electrolyte interphase for high-voltage potassium-ion batteries. Advanced Functional Materials, 32, 2205879.

Xia, M., Feng, Y., Wei, J., Rao, A. M., Zhou, J., & Lu, B. (2022). A rechargeable K/Br battery. Advanced Functional Materials, 32, 2205879.
(Note: Same article number, ensure the source list is correct.)

Xia, M., Zhang, X., Yu, H., Yang, Z., Chen, S., Zhang, L., Shui, M., Xie, Y., & Shu, J. (2021). Hydrogen bond chemistry in Fe₄[Fe(CN)₆]₃ host for aqueous NH₄⁺ batteries. Chemical Engineering Journal, 421, 127759.

Yanli Wang | Materials Science | Best Researcher Award

Published on by WSA Awards

Prof. Yanli Wang | Materials Science | Best Researcher Award

Hainan Medical University, China

Prof. Wang Yanli is a distinguished researcher and academic leader specializing in precision-targeted cancer research, nanochemistry, molecular imaging, and translational medicine. After completing his doctoral studies at the Institute of Nanochemistry and Biology, Shanghai University, in 2010, he has held a series of progressive academic and administrative positions, including director of the Center for Precision Targeted Cancer Research, dean of the Hu Jinhua Institute of Precision Health Education, and, most recently, professor at Hainan University and dean of the School of Pharmacy at Hainan Medical University. Prof. Wang has conducted visiting research at globally renowned institutions, including Clemson University and Harvard University, enhancing his international collaborations and fostering cross-border knowledge exchange. His research portfolio is extensive and impactful, encompassing over 56 SCI-indexed publications with 2,764 citations and an h-index of 25, reflecting both the quality and influence of his work. He has secured multiple competitive national-level grants, including funding from the National Natural Science Foundation of China for Excellent Young Scholars and the National Outstanding Young Scholars Fund, leading six major projects in cancer diagnostics, molecular imaging, and nanotechnology applications. Prof. Wang has also applied for 15 patents and contributed to the authorship and editing of monographs, underscoring his commitment to innovation and knowledge dissemination. Prof. Wang’s leadership extends beyond research. He serves in numerous professional and advisory capacities, including as an expert member of the Big Health Committee of the United Nations World Silk Road Forum and as director or member of multiple national and regional medical imaging and oncology committees. His work has tangible societal impact, advancing precision oncology, improving molecular imaging technologies, and contributing to public health strategies. Recognized with awards such as the Yangtze River Delta Most Potential Technology Trading Award and the International Association for Advanced Materials Young Scientist Award, Prof. Wang continues to bridge fundamental research, translational applications, and industry innovation, making significant contributions to science, healthcare, and global biomedical advancements.

Profiles: Scopus | ORCID

Featured Publications

  1. Li, Y., Zhang, Y., Li, C., Chen, G., Muhammad, P., Yao, Y., Gao, L., Liu, Z., & Wang, Y. (2025, October). Advanced cancer immunotherapy via SMARCAL1 blockade using a glucose‐responsive CRISPR nanovaccine. Advanced Science.

  2. Tang, T., Chen, J., Zhang, J., Pan, P., Jiang, J., Hu, C., He, Y., Li, C., Zhang, J., & Wang, Y. (2025, August). High concentrations of fluorescent nanoprobes delayed Oryzias melastigma embryo hatching by modulating respiratory and metabolic pathways. VIEW.

  3. Muhammad, P., Zada, A., Rashid, J., Hanif, S., Gao, Y., Li, C., Li, Y., Fan, K., & Wang, Y. (2024, July). Defect engineering in nanocatalysts: From design and synthesis to applications. Advanced Functional Materials.

  4. He, W., Zhang, J., Ju, J., Wu, Y., Zhang, Y., Zhan, L., Li, C., & Wang, Y. (2023, November). Preparation, characterization, and evaluation of the antitumor effect of kaempferol nanosuspensions. Drug Delivery and Translational Research.

  5. Qiu, L., Alqahtani, B. A., Li, C., He, W., Yin, X., Zhan, L., Zhang, J., & Wang, Y. (2023, August 2). Changes in diet, exercise and psychology of the quarantined population during the COVID-19 outbreak in Shanghai. PLOS ONE.

Prof. Wang Yanli’s work advances precision-targeted cancer research and molecular imaging, driving innovation in diagnostics and therapeutics. His research bridges fundamental science and translational applications, enhancing healthcare outcomes, promoting biomedical technology development, and supporting global health initiatives.

Xue Yu | Materials Science | Best Researcher Award

Published on by WSA Awards

Ms. Xue Yu | Materials Science | Best Researcher Award

Chengdu University, China

Professor Xue Yu, PhD, is a leading scholar in materials science and mechanical engineering, specializing in advanced functional materials, luminescent nanocrystals, and optoelectronic applications. She earned her PhD from Lanzhou University in 2010 and an MS from Henan University in 2007. Currently, she serves as Professor at the School of Mechanical Engineering, Institute for Advanced Materials, Chengdu University, and Deputy Director of its Graduate Office. She has previously held key academic positions at Kunming University of Science and Technology and completed a visiting scholar tenure at New Mexico State University, USA. Professor Yu’s research focuses on in vivo mechanical signal sensing, nanocrystal upconversion, long-persistent luminescence, perovskite scintillators, and the development of high-performance optoelectronic and imaging materials. Her work has yielded over 60 peer-reviewed publications in prestigious international journals such as Advanced Materials, ACS Nano, Advanced Optical Materials, and Chemical Engineering Journal, accumulating more than 3,000 citations with an h-index of 34. She has led multiple national research grants exceeding 3 million CNY, including projects supported by the National Natural Science Foundation of China and talent development programs such as the Rongpiao Plan and Tianfu Emei Plan. Professor Yu has also been recognized with numerous scientific awards, including the First Prize in Natural Science of Yunnan Province (2019) and Third Prize of Natural Science (2020), alongside multiple student guidance and innovation awards at national competitions. Her inventive contributions include patents in perovskite nanowire arrays, near-infrared fluorescent materials, and multimodal luminescent systems. Beyond publications and patents, Professor Yu actively mentors emerging researchers, guiding projects in advanced luminescent materials, stress imaging, and optoelectronic device development. Her work not only advances fundamental understanding of defect-engineered nanomaterials and luminescence mechanisms but also drives societal impact through innovations in biomedical imaging, energy-efficient lighting, and high-performance sensors. With extensive collaborations both nationally and internationally, Professor Yu’s research integrates materials science, photonics, and applied engineering, establishing her as a prominent figure whose scientific contributions are advancing technology and addressing critical challenges in imaging, sensing, and sustainable material development.

Profiles: Scopus | ORCID

Featured Publications

  1. Fan, X., Zeng, T., Zeng, C., Zeng, G., Xiong, F., Gao, R., Zhang, Y., Hao, X., Hu, A., Yu, X., et al. (2025). Cuprous halides scintillator via anion‐substitution strategy for X‐ray dynamic imaging. Laser & Photonics Reviews.

  2. Wang, T., Sun, J., Teng, Z., Yao, S., Yuan, J., Han, L., Mu, D., Song, H., Yu, X., Xu, X. (2025). Near‐infrared emission perovskites for multifunctional bioimaging. Small Science.

  3. Bu, W., Wang, T., Wang, Y., Huang, W., Guo, L., Yue, Y., Zhu, X., Xiao, J., Yu, X. (2025). Near‐infrared mechanoluminescence of Gd3Ga5O12: Cr3+, La3+ for biological stress imaging. Laser & Photonics Reviews.

  4. Hu, A., Hou, L., Yue, Y., Yu, S. F., Yu, X., Wang, T. (2025). Ultraelastic lead halide perovskite films via direct laser patterning. ACS Nano.

  5. Zhu, N., Wang, T., Guo, L., Zhu, X., Bu, W., Yue, Y., Yu, X. (2024). Multimodal dynamic luminescence of self-activated Na2CaGe2O6 phosphor via defect manipulation. CrystEngComm.

Ms. Xue Yu’s pioneering work in luminescent nanomaterials and optoelectronic devices bridges fundamental science and practical innovation, driving advancements in biomedical imaging, stress sensing, and energy-efficient lighting technologies. Her research contributes significantly to sustainable material development and fosters global innovation in next-generation photonic and electronic systems.

Xiao Yan | Materials Science | Best Researcher Award

Published on by WSA Awards

Prof. Xiao Yan | Materials Science | Best Researcher Award

Jiangsu Normal University, China

Prof. Xiao Yan, Ph.D., is a distinguished Professor and Dean of the Department of Materials Science and Engineering at Jiangsu Normal University, widely recognized for his contributions to advanced energy materials and sustainable technologies. He received his Ph.D. through the Master-PhD program at the School of Physics, Jilin University (2009–2014), and later conducted postdoctoral research at the Qingdao Institute of Bioenergy and Process Technology, Chinese Academy of Sciences (2014–2016). Over the past decade, Prof. Xiao has built a strong academic career supported by major research grants, including multiple projects from the National Natural Science Foundation of China (NSFC) and provincial funding bodies, serving as Principal Investigator for more than ten funded projects. His primary research interests lie in lithium/sodium-ion batteries, lithium-sulfur batteries, and the recycling and reuse of waste lithium-ion batteries, areas critical for sustainable energy development. With over 50 publications indexed in SCI journals, including leading outlets such as Angewandte Chemie International Edition, Nano Letters, and ACS Nano, he has accumulated 1,451 citations and an h-index of 22, demonstrating significant global impact. He also holds six authorized patents and has collaborated with international teams, reflecting both scientific innovation and applied relevance. Prof. Xiao’s research skills span advanced materials synthesis, electrochemical performance evaluation, battery recycling methods, and interdisciplinary project leadership, ensuring a balance between theoretical and applied science. In addition to his research, he has been a dedicated mentor, guiding students to national-level recognition, including a Special Prize in the Challenge Cup (2024) and awards in the National Undergraduate Chemical Engineering Competition. His achievements have earned him several honors, notably the Provincial Outstanding Doctoral Dissertation Award (2015) and the Jiangsu Military-Civilian Integration Science and Technology Innovation Award (2018). In conclusion, Prof. Xiao exemplifies academic excellence, innovation, and leadership in materials science, and his ongoing work positions him as a key figure driving advancements in clean energy technologies and sustainable practices with lasting global impact.

Profiles: Scopus | ORCID

Featured Publications

  1. Cai, J., Li, Y., Xu, S., Li, Y., Wang, Z., Liu, J., Yang, S., & Yan, X. (2025). A review on the insights into redox-based regeneration strategies for LiFePO4 batteries. Nanoscale. Advance online publication.

  2. Xu, S., Cai, J., Liu, T., An, G., Li, Y., Wang, Z., Liu, J., Li, Y., & Yan, X. (2025). A review on electrochemical recycling of spent lithium-ion batteries electrode materials: Technology innovation-driven resource closed-loop systems and sustainable development. Separation and Purification Technology. Advance online publication.

  3. Li, Y., Chen, Q., Wang, Z., Liu, J., Cai, J., Gu, H., Liu, Z., Wang, M., Long, Z., & Yan, X. (2025). Reverse modulation of carbon-interface electron density via s-d block high-entropy-alloys boosts Li–S batteries. Angewandte Chemie International Edition. Advance online publication.

  4. Li, Y., Chen, Q., Wang, Z., Liu, J., Cai, J., Gu, H., Liu, Z., Wang, M., Long, Z., & Yan, X. (2025). Reverse modulation of carbon-interface electron density via s-d block high-entropy-alloys boosts Li–S batteries. Angewandte Chemie. Advance online publication.

  5. Liu, J., Long, Z., Cai, J., Gu, H., Li, Y., & Yan, X. (2025). Breaking electronic symmetry via axial asymmetric coordination at Co site in dual-channel catalyst boosts high-performance Li–S batteries. Nano Letters. Advance online publication.

Aenas Laith Ali | Materials Science | Best Academic Researcher Award

Published on by WSA Awards

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.

Omar Anis HARZALLAH | Materials Science | Best Researcher Award

Published on by WSA Awards

Dr. Omar Anis HARZALLAH | Materials Science | Best Researcher Award

Associate Professor from University of Haute-Alsace, France

Omar Anis Harzallah is an accomplished Associate Professor at the University of Haute-Alsace, affiliated with the École Nationale Supérieure d’Ingénieurs Sud Alsace (ENSISA) and the Laboratoire de Physique et Mécanique Textiles (LPMT – EA 4365). He has developed a distinguished career in textile engineering, focusing on sustainable materials and innovative fiber technologies. His work spans the morphological, physico-chemical, and mechanical characterization of natural fibers, with special attention to exotic plant fibers and their applications in textile and bio-based composites. Dr. Harzallah has also made significant advancements in functional polymeric fibers and nanostructured textile materials, emphasizing eco-design principles. Beyond research, he has been a committed educator and mentor for over two decades, contributing to student development, international pedagogy, and the promotion of textile engineering education. His dedication extends to scientific leadership, coordination of laboratories, and international academic collaborations. With more than 50 peer-reviewed publications, 9 book chapters, and 2 patents, his academic footprint is well-established globally. Dr. Harzallah’s contributions have earned him prestigious awards and recognition in the textile industry. His multidisciplinary approach, commitment to sustainability, and consistent research excellence make him a valuable asset to the scientific and educational community.

Professional Profile

Education

Dr. Omar Anis Harzallah holds a Ph.D. in Engineering Sciences from the University of Haute-Alsace, which he completed in 1999. His doctoral studies laid the foundation for his extensive work in textile characterization and sustainable fiber research. Prior to his Ph.D., he earned an Engineering degree in Textile Science from the Institut Supérieur Industriel de Verviers in Belgium. His academic training provided him with a solid background in both theoretical and practical aspects of textile engineering, fiber mechanics, and materials science. Throughout his educational journey, he developed a keen interest in the eco-friendly utilization of natural fibers and the advancement of bio-based composites, which would later become central to his research focus. His academic credentials reflect a strong commitment to both scientific excellence and practical industrial applications. In addition to his formal degrees, Dr. Harzallah has continuously expanded his knowledge through international collaborations and participation in professional development initiatives. His education has equipped him with multidisciplinary expertise, blending textile engineering with sustainable design principles. This combination of high-level education and continuous skill enhancement has positioned him as a leading figure in textile innovation and eco-conscious material development in the global academic landscape.

Professional Experience

Dr. Omar Anis Harzallah has built an impressive professional career as an Associate Professor at the University of Haute-Alsace, where he is affiliated with ENSISA and LPMT – EA 4365. With over 20 years of experience, he has played a central role in textile engineering research and education. His career includes scientific leadership within the Laboratoire de Physique et Mécanique Textiles, where he has coordinated textile metrology laboratories and led several major research initiatives. He has served as an elected member of both the Research Commission and the Academic Council at the University of Haute-Alsace, contributing to institutional development and research policy. Dr. Harzallah has also been actively involved in promoting international academic partnerships and double-degree programs, especially with universities in Tunisia. In addition to his research and teaching responsibilities, he has participated in international pedagogical projects in Algeria and Mongolia, demonstrating his commitment to global knowledge exchange. His professional journey includes close collaborations with both academic and industrial partners in countries like Cameroon, Iran, the United States, and Australia. This international exposure has significantly enriched his expertise and allowed him to contribute to cutting-edge developments in sustainable textile materials and fiber engineering.

Research Interest

Dr. Omar Anis Harzallah’s primary research interests center on the morphological, physico-chemical, and mechanical characterization of natural fibers, with a particular emphasis on exotic plant fibers. His work focuses on the valorization of these fibers for applications in textiles and bio-based composite materials, aligning strongly with sustainability goals. He has also explored the development of functional polymeric fibers and innovative nanostructured textile materials. A core theme in his research is eco-design, where he seeks to create environmentally friendly and high-performance materials. Dr. Harzallah’s interdisciplinary research bridges materials science, textile engineering, and mechanical analysis, contributing to the evolution of next-generation fibers and composites. His collaborations with international research teams and industries aim to translate laboratory findings into real-world applications, particularly in sustainable product design. In addition, he has shown interest in textile metrology, advancing methodologies for precise measurement and quality control in fiber-based products. Dr. Harzallah’s research is not only theoretical but also application-driven, with significant relevance to eco-conscious manufacturing, green composites, and functional textiles. His diverse research portfolio continues to contribute to the advancement of sustainable engineering practices and offers valuable insights into the circular economy within the textile and materials industries.

Research Skills

Dr. Omar Anis Harzallah possesses a wide range of research skills essential for advanced textile and fiber engineering. He is highly proficient in the morphological, physico-chemical, and mechanical characterization of natural and synthetic fibers. His expertise includes advanced testing and analytical methods for evaluating fiber properties, durability, and performance in composite applications. Dr. Harzallah is skilled in eco-design methodologies, enabling him to develop sustainable and high-functionality textile products. He has hands-on experience in creating functional polymeric fibers and nanostructured textile materials, integrating novel processing techniques to achieve targeted material characteristics. His research skill set also encompasses textile metrology, where he contributes to the development of precise measurement techniques and laboratory standards for textile analysis. Additionally, he is adept at managing multidisciplinary research teams and coordinating complex laboratory infrastructures. Dr. Harzallah’s international collaborations have equipped him with cross-cultural research management skills and the ability to lead joint research projects. He regularly serves as a reviewer for national and international funding bodies, providing critical evaluations of research proposals. His comprehensive research abilities allow him to translate scientific concepts into practical applications, driving innovation in sustainable textiles and bio-based composites across academic and industrial domains.

Awards and Honors

Throughout his career, Dr. Omar Anis Harzallah has received several prestigious awards and honors that recognize his scientific and academic contributions. In 2012, he was awarded the Théophile Legrand International Prize for Textile Innovation, which is a significant accolade in the textile industry, celebrating groundbreaking advancements in textile materials and processes. This award highlights his role in developing innovative, eco-friendly fiber technologies. In 2021, he was honored with the “Avenir” Award by the Association of Textile Industry Chemists, further recognizing his forward-thinking approach and leadership in textile engineering. In addition to these awards, Dr. Harzallah’s influence is acknowledged through his position as an expert reviewer for funding agencies such as the French National Research Agency (ANR) and Canada’s Natural Sciences and Engineering Research Council (NSERC). His standing in the academic community is reinforced by his contributions to international conferences, numerous collaborative projects, and his supervision of doctoral candidates. These recognitions not only validate his research excellence but also underscore his role as a thought leader in sustainable textiles and fiber science. Dr. Harzallah’s award-winning innovations and sustained academic impact have significantly advanced the field of eco-conscious textile engineering.

Conclusion

Dr. Omar Anis Harzallah stands out as a highly qualified and deserving candidate for the Best Researcher Award. His contributions to textile science, particularly in the characterization and valorization of natural fibers, reflect a deep commitment to sustainability and innovation. Through his extensive research, academic leadership, and international collaborations, he has consistently driven forward the development of eco-friendly materials and functional textiles. His impressive record of publications, patents, and successful student supervision highlights his dedication to advancing knowledge and mentoring the next generation of researchers. Dr. Harzallah’s work not only advances scientific understanding but also addresses critical global challenges such as sustainable material production and circular economy practices. His ability to bridge academic theory with industrial application makes his research highly impactful and widely respected. His awards and recognitions further validate his pioneering role in textile innovation. Dr. Harzallah’s career demonstrates a balanced integration of research excellence, educational commitment, and international outreach. With his strong multidisciplinary background, proven research capabilities, and dedication to eco-design, he continues to be a valuable contributor to the advancement of textile engineering and sustainable material sciences.

Publications Top Notes

  1. Aurélie Decker, Jean-Yves Drean, Vivien Sarazin, Omar Harzallah – 2024
    Influence of Different Retting on Hemp Stem and Fiber Characteristics Under the East of France Climate Conditions

  2. Thomas Jeannin, Gilles Arnold, Alain Bourmaud, Stéphane Corn, Emmanuel De Luycker, Pierre J.J. Dumont, Manuela Ferreira, Camille François, Marie Grégoire, Omar Harzallah et al. – 2024
    A round-robin study on the tensile characterization of single fibres: A multifactorial analysis and recommendations for more reliable results

  3. Wafa Mahjoub, Sarangoo Ukhnaa, Jean-Yves Drean, Omar Harzallah – 2024
    Influence of Genetic and Non-Genetic Factors on the Physical and Mechanical Properties of Mongolian Cashmere Fiber Properties

  4. Narcisse Defo, Omar Harzallah, Rodrigue Nicodème Tagne Sikame, Ebenezer Njeugna, Sophie Bistac – 2024
    Effect of alkaline treatment on hard vegetable shells on the properties of biobased abrasive wheels

  5. Solange Mélanie Anafack, Omar Harzallah, Didymus Efeze Nkemaja, Paul William Mejouyo Huisken, Aurélie Decker, Rodrigue Nicodème Sikame Tagne, Jean-Yves Drean, K. Murugesh Babu, Ebenezer Njeugna – 2023
    Effects of extraction techniques on textile properties of William banana peduncle fibers

  6. Syrille Brice Tchinwoussi Youbi, Omar Harzallah, Nicodème Rodrigue Sikame Tagne, Paul William Mejouyo Huisken, Tido Tiwa Stanislas, Jean-Yves Drean, Sophie Bistac, Ebenezer Njeugna, Chenggao Li – 2023
    Effect of Raphia vinifera Fibre Size and Reinforcement Ratio on the Physical and Mechanical Properties of an Epoxy Matrix Composite: Micromechanical Modelling and Weibull Analysis

  7. Adel Elamri, Khmais Zdiri, Mohamed Hamdaoui, Omar Harzallah – 2023
    Chitosan: A biopolymer for textile processes and products

  8. Imen Landolsi, Narjes Rjiba, Mohamed Hamdaoui, Omar Harzallah, Anis, Chedly Boudokhane – 2022
    Homogeneous microwave-assisted carboxymethylation from totally chlorine free bleached olive tree pruning residues pulp

  9. Khmais Zdiri, Omar Harzallah, Adel Elamri, Nabyl Khenoussi, Jocelyne Brendlé, Hamdaoui Mohamed – 2018
    Rheological and thermal behavior of Tunisian clay reinforced recycled polypropylene composites

Parveen Saini | Materials Science | Best Researcher Award

Published on by WSA Awards

Dr. Parveen Saini | Materials Science | Best Researcher Award 

Sr. Principal Scientist and Professor AcSIR, at CSIR National Physical Laboratory New Delhi, India.

Dr. Parveen Saini is a Sr. Principal Scientist at the CSIR-National Physical Laboratory in New Delhi, India. He leads the Conjugated Polymers, Graphene Technology, and Waste Management Lab within the Photovoltaic Metrology Section, Advanced Materials and Devices Metrology Division. With a strong academic background in polymer science and material science, Dr. Saini has developed innovative research in areas including conductive polymers, graphene technology, and sustainable waste management solutions ♻️. His contributions have earned him recognition in engineering sciences, particularly for developing advanced materials with applications in EMI shielding, sustainable coatings, and nanotechnology. His work reflects a commitment to both industrial innovation and environmental sustainability 🌍, and he continues to guide research at CSIR-NPL, with his findings being highly influential in both scientific and industrial domains.

Profile

Education 🎓

Dr. Saini began his academic journey at Delhi College of Engineering, University of Delhi, where he earned his B.Tech. in Polymer Science and Chemical Technology in 2002. Driven by his interest in materials science, he went on to complete his Ph.D. at the Indian Institute of Technology (IIT), Delhi, in 2012, specializing in conducting polymers. His Ph.D. research provided critical insights into material properties that have since informed his subsequent work in advanced polymeric and graphene-based technologies. This robust educational foundation equipped Dr. Saini with the knowledge and skills to lead cutting-edge research in material science, establishing him as a prominent figure in both the academic and industrial fields of polymer and nanotechnology.

Experience 💼

Dr. Saini’s professional journey began as a Graduate Engineer Trainee at Shriram Institute for Industrial Research, where he worked in the Rubber, Plastics, and Textile Lab. In 2004, he joined the CSIR-National Physical Laboratory, where he quickly advanced through various roles, starting as a Junior Scientist in the Polymeric & Soft Materials Section, then progressing to Scientist and Senior Scientist in the Materials Physics and Engineering Division. Since 2021, he has served as Sr. Principal Scientist, overseeing the Advanced Materials and Devices Metrology Division. Over his extensive career, Dr. Saini has been at the forefront of research in materials science, pioneering techniques in polymer development, waste management, and graphene technology for enhanced industrial applications.

Research Interests 🔍

Dr. Saini’s research is centered on the development of advanced materials, particularly in the realms of conjugated polymers, graphene technology, and waste management. His interests span the synthesis and application of conductive polymers for electromagnetic interference (EMI) shielding, sustainable coatings for corrosion resistance, and recycling methods for waste solar modules. Dr. Saini also explores innovative uses of graphene for energy storage and environmental sustainability, aiming to create materials that address industrial needs while promoting eco-friendly practices. His work on nanocomposites and sustainable materials highlights a commitment to improving material resilience and reducing environmental impact, making significant contributions to both industrial technology and green innovation 🌱.

Awards 🏆

In 2013, Dr. Parveen Saini received the prestigious CSIR Young Scientist Award in the area of Engineering Sciences, recognizing his pioneering contributions to material sciences. This honor reflects his influential work in developing novel conductive polymers and graphene-based materials with applications in EMI shielding and sustainable coatings. Dr. Saini’s award-winning research is known for its practical industrial applications, particularly in enhancing material durability and eco-friendliness. His accomplishments in the field have positioned him as a leading figure in advanced materials science, with his innovative approaches influencing the direction of polymer research and development in India and globally.

Publications 📚

Dr. Saini has authored numerous influential papers in high-impact scientific journals. Here are some of his notable publications:

    • Enhanced Anticorrosive Behavior of Waste Tea Bags Derived Nanocrystalline Cellulose Incorporated Polyaniline for Protection of Mild Steel Under Aggressive Saline Environment
      • Journal: Transactions of the Indian Institute of Metals
      • Year: 2024
      • Citations: 0
      • Summary: This study investigates the anticorrosive properties of polyaniline (PANI) composites incorporating nanocrystalline cellulose (NCC) derived from waste tea bags. The material demonstrates significant potential for protecting mild steel in saline conditions.
    • Extraction and Analysis of Back-Sheet Layer from Waste Silicon Solar Modules
      • Journal: Chemical Reports
      • Year: 2022
      • Citations: 1
      • Summary: This paper focuses on the extraction and analysis of back-sheet layers from waste silicon solar modules, addressing waste management and material recovery in photovoltaic industries.
    • Fe3O4/Graphene-Oxide/Chitosan Hybrid Aerogel Based High-Performance Supercapacitor: Effect of Aqueous Electrolytes on Storage Capacity & Cell Stability
      • Journal: Journal of Energy Storage
      • Year: 2022
      • Citations: 28
      • Summary: This research explores a Fe3O4/graphene oxide/chitosan hybrid aerogel for use in supercapacitors, emphasizing how aqueous electrolytes impact storage capacity and cell stability.
    • Historical Review of Advanced Materials for Electromagnetic Interference (EMI) Shielding: Conjugated Polymers, Carbon Nanotubes, Graphene-Based Composites
      • Journal: Indian Journal of Pure and Applied Physics
      • Year: 2019
      • Citations: 19
      • Summary: A comprehensive review of materials used in electromagnetic interference (EMI) shielding, particularly focusing on conjugated polymers, carbon nanotubes, and graphene composites.
    • Excellent Electromagnetic Interference Shielding and Mechanical Properties of High-Loading Carbon-Nanotubes/Polymer Composites Designed Using Melt Recirculation Equipped Twin-Screw Extruder
      • Journal: Carbon
      • Year: 2015
      • Citations: 192
      • Summary: This study presents a high-performance EMI shielding material developed using carbon nanotube/polymer composites. The twin-screw extruder technique enhances both mechanical properties and shielding effectiveness.

Conclusion

Dr. Parveen Saini is a highly accomplished scientist with substantial contributions in materials science and engineering, particularly in the fields of conjugated polymers, graphene, and waste management technologies. His portfolio of publications, patents, and professional achievements makes him an excellent candidate for the Best Researcher Award. His innovative work and societal impact through SSR initiatives reflect his commitment not only to scientific excellence but also to addressing critical societal needs. Expanding international collaborations and exploring further sustainable materials applications could enhance his already impressive career trajectory.