Liang Wang | Materials Science | Young Scientist Award

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Mr. Liang Wang | Materials Science | Young Scientist Award

Head of the Learning Department from Anhui University of Technology, China

Wang Liang is a highly motivated and innovative undergraduate student with a strong passion for energy materials research, particularly in the field of battery technology. His academic journey has been marked by a proactive approach toward scientific inquiry and a strong inclination for hands-on experimental work. Under the mentorship of experienced faculty members, Wang has immersed himself in laboratory research since his early undergraduate years, engaging in the preparation, analysis, and optimization of advanced electrode materials. He has consistently demonstrated leadership through his role in competitive innovation and entrepreneurship contests, securing numerous awards at national and provincial levels. Wang has also shown an ability to translate scientific ideas into practical research outcomes, applying for national-level innovation training programs and contributing to scientific publications and patent submissions. His strong academic standing is complemented by his organizational involvement, including roles such as study committee member and department vice minister. With a solid foundation in both theory and practice, Wang Liang represents a new generation of researchers who combine scientific curiosity with social responsibility. His early achievements signal great promise for a future in high-impact materials science research and sustainable energy solutions.

Professional Profile

Education

Wang Liang is currently an undergraduate student majoring in materials science and engineering. Since the beginning of his academic career in 2022, he has shown exceptional academic and extracurricular engagement. He was selected to work under the supervision of Dr. Junzhe Li through a mentor allocation system, beginning his scientific training by attending group meetings and following graduate students in laboratory work. His education combines a rigorous curriculum in materials synthesis, electrochemistry, and characterization methods with practical exposure to experimental research. Wang has undertaken academic coursework in energy storage systems, inorganic chemistry, and solid-state physics, while simultaneously gaining research experience through university-sponsored programs. He has successfully applied for and led a National Undergraduate Innovation and Entrepreneurship Training Project and is involved in writing and submitting academic papers to SCI-indexed journals. He has also completed national training programs in entrepreneurship and innovation offered by institutions such as Zhejiang Gongshang University and Anhui University of Technology. These educational experiences, paired with his drive for independent learning and innovation, have provided Wang with a solid and versatile foundation for further research-oriented graduate education in advanced energy materials and electrochemical technologies.

Professional Experience

Although still an undergraduate, Wang Liang has built an impressive portfolio of pre-professional experience through active participation in research and innovation initiatives. His early involvement in experimental laboratory work began in December 2022 under the mentorship of Dr. Junzhe Li. By the summer of 2023, Wang had already engaged in hands-on research on antimony-based sulfide anode materials for lithium-ion batteries. He remained on campus during summer breaks to continue his experiments, develop laboratory techniques, and deepen his understanding of scientific literature. In April 2024, he successfully applied for a national undergraduate innovation training project, and in May, he filed a national invention patent related to battery material design. His work has led to the preparation of a review article targeting the journal Materials Review and a research paper currently under review in an SCI Zone 2 journal. Wang also gained experience leading student innovation projects, serving as a team leader in several national and provincial entrepreneurship competitions. In addition to his research engagements, he has taken on roles such as counselor assistant and vice minister in the academic department, enhancing his organizational and leadership abilities. This combination of scientific and managerial experience has equipped him with a unique skill set for a future in academia or industry.

Research Interest

Wang Liang’s primary research interests lie in the development of novel anode materials for next-generation energy storage systems, particularly lithium-ion and sodium-ion batteries. He has focused on exploring the electrochemical performance and structural optimization of advanced materials such as antimony-based sulfides and Ni-doped FeSe@C composites. His academic curiosity extends to the interface chemistry, charge-discharge mechanisms, and cycling stability of these electrode materials. Wang is especially interested in how modifications at the nano and microstructural levels can lead to improvements in energy density, conductivity, and mechanical stability. He has demonstrated a strong interest in bridging the gap between theoretical modeling and practical application, often combining material characterization with electrochemical testing in his work. His long-term goal is to contribute to the development of high-performance, sustainable energy systems that support the global transition to renewable energy. As part of his undergraduate research, Wang is currently working on a project involving concentration gradient tuning in Ni-doped materials, aiming to enhance their functionality as sodium-ion battery anodes. His vision involves integrating fundamental research with real-world application, contributing to breakthroughs in energy efficiency, battery lifespan, and environmental sustainability through material innovation.

Research Skills

Wang Liang has developed a wide range of research skills relevant to the field of materials science and battery technology. Through his involvement in laboratory experiments and innovation projects, he has become proficient in the synthesis and characterization of electrode materials, including techniques such as ball milling, calcination, and hydrothermal synthesis. He is skilled in conducting electrochemical measurements such as cyclic voltammetry, galvanostatic charge-discharge testing, and electrochemical impedance spectroscopy. In addition, Wang has experience in using analytical tools like X-ray diffraction (XRD) and scanning electron microscopy (SEM) for structural and morphological analysis. He is adept at interpreting scientific literature and presenting research findings in both written and oral formats. Wang has also demonstrated competence in academic writing, having authored a Chinese review paper and contributed to an SCI journal manuscript currently under review. His ability to coordinate with team members and manage research timelines as a project leader shows strong project management and collaboration skills. Moreover, his familiarity with patent writing and innovation proposal drafting indicates maturity in scientific communication. These combined technical, analytical, and soft skills provide a strong foundation for advanced research and problem-solving in the energy materials domain.

Awards and Honors

Wang Liang has been recognized with a diverse array of awards and honors that reflect both his academic excellence and innovation potential. In 2024 alone, he secured the Silver Prize in the Chizhou Guichi Entrepreneurship Top Ten Team Selection Competition and another Silver Award at the China International College Student Innovation Competition as a team leader. He also won a First Prize at the China Youth College Student Innovation Environmental Competition and a Third Prize at the Deep Blue Cup National Innovation and Entrepreneurship Competition. Earlier achievements include a National Silver Award at the 2023 Jinglian Cup Innovation Contest and a First Prize at the National College Innovation Project Presentation Contest. His personal academic accolades include the 2024 National Encouragement Scholarship, Excellent Class Cadre Award, and Three Good Student Award in 2023. Wang also holds certifications in core professional competencies (CVCC), emergency response, and has completed multiple national training programs in innovation and entrepreneurship. His leadership roles in academic departments and as counselor assistant further highlight his balanced development in academics and student affairs. These awards not only validate his academic rigor but also his problem-solving, creativity, and leadership in research and innovation activities.

Conclusion

In conclusion, Wang Liang is a standout candidate for recognition as an emerging researcher in the field of energy materials and battery technology. At just 21 years of age, he has already demonstrated the qualities of a future scientific leader—innovation, diligence, technical proficiency, and academic maturity. His strong foundation in materials science, coupled with practical research experience and an impressive track record in national competitions, sets him apart among his peers. Wang’s commitment to linking theory with experimental practice is evident in his ongoing research projects, published works, and patent filings. His ability to work collaboratively, manage research projects, and communicate complex ideas effectively makes him highly suited for continued academic research or professional R&D roles. While he is still in the early phase of his scientific career, his accomplishments and potential clearly align with the values recognized by awards that celebrate research excellence. With further opportunities for graduate-level research and international exposure, Wang Liang is poised to make meaningful contributions to sustainable energy technologies and advanced functional materials in the near future. He is highly deserving of encouragement, mentorship, and recognition on platforms dedicated to celebrating young scientific talent.

Xuanhua Li | Materials Science | Best Researcher Award

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Prof. Xuanhua Li | Materials Science | Best Researcher Award

Group Leader at Northwestern Polytechnical University, China

Xuanhua Li is a distinguished professor and project leader at Northwestern Polytechnical University (NPU), China. His research focuses on advanced materials, particularly 2D materials, photocatalytic water splitting, and perovskite solar cells. With a prolific publication record in prestigious journals such as Science, Nature Energy, Nature Communications, and Science Advances, he has established himself as a leading researcher in materials science and renewable energy. His innovative contributions to high-efficiency solar cells, photocatalysis, and energy conversion systems have gained national and international recognition. As a fellow of the International Union of Materials Research Societies and a recipient of multiple youth talent support programs, he has demonstrated strong leadership in his field. His work is characterized by groundbreaking advancements in optoelectronics, energy materials, and nanotechnology.

Professional Profile

Education

Xuanhua Li holds a Bachelor’s degree in Materials Science from Wuhan University of Technology (2003–2007). He earned his Master’s degree in ChemistryfromPh.D. in Optoelectronics at the University of Hong Kong (2010–2014), where he specialized in advanced materials and energy conversion technologies. His academic journey reflects a strong foundation in multidisciplinary research, integrating materials science, chemistry, and optoelectronics to address challenges in sustainable energy solutions.

Professional Experience

Since 2014, Xuanhua Li has been a Professor at Northwestern Polytechnical University (NPU), Xi’an, China, where he leads innovative research in materials science. In 2019, he took on the role of Project Leader and Group Leader at the Center of Nano Energy and Materials at NPU, where he directs cutting-edge research on energy materials and nanotechnology. His leadership has contributed significantly to the advancement of photocatalysis, perovskite solar cells, and nanomaterials for energy applications. His professional experience includes mentoring young researchers, securing competitive research funding, and collaborating with international scientists to push the boundaries of renewable energy research.

Research Interests

Xuanhua Li’s research interests center on the design and fabrication of 2D materials, photocatalytic water splitting, and perovskite solar cells. His work focuses on developing highly efficient and stable materials for solar energy conversion and hydrogen production. He explores innovative techniques to enhance the performance of perovskite solar cells, quantum efficiency in photocatalysis, and hydrovoltaic energy systems. His interdisciplinary research integrates nanotechnology, chemistry, and materials engineering to solve challenges in sustainable energy generation and storage. His work contributes to the development of next-generation renewable energy solutions with potential applications in clean energy and environmental sustainability.

Research Skills

Xuanhua Li possesses expertise in materials synthesis, nanofabrication, and advanced characterization techniques. His skills include photocatalysis, thin-film deposition, optoelectronic device fabrication, and energy conversion efficiency analysis. He is proficient in spectroscopy, electron microscopy, and electrochemical testing, which are crucial for evaluating the properties and performance of nanomaterials. His ability to integrate experimental and computational approaches allows him to develop novel materials with enhanced functionalities. His strong analytical skills and deep understanding of optoelectronic materials and energy harvesting systems enable him to design high-performance solar cells and hydrogen production technologies.

Awards and Honors

Xuanhua Li has received several prestigious recognitions for his contributions to materials science. He is a Fellow of the International Union of Materials Research Societies, an honor that highlights his leadership in the field. He has been selected for the National Youth Talent Support Program and the Youth Talent Support Program in Shaanxi, China, acknowledging his exceptional research achievements. Additionally, he is a recipient of the National Science Fund for Distinguished Young Scholars in Shaanxi, China, which supports outstanding young scientists conducting groundbreaking research. These accolades reflect his scientific excellence, research impact, and leadership in the field of advanced energy materials.

Conclusion

Xuanhua Li is a highly accomplished researcher in the field of materials science, with a strong emphasis on renewable energy applications. His prolific publication record, leadership in high-impact research, and recognition through national and international awards establish him as a leading scientist. His expertise in 2D materials, photocatalysis, and perovskite solar cells contributes to the development of sustainable energy technologies. While his research output is exceptional, expanding his industrial collaborations and mentorship initiatives could further enhance his profile. Overall, his contributions make him a strong candidate for prestigious research awards in the field of materials science and energy research.

Publication To Notes

  1. Title: “Tailoring the Configuration of Polymer Passivators in Perovskite Solar Cells”

      • Authors: Yaohua Li, Qi Cao, Xuanhua Li
      • Year: 2024
      • Journal: Chinese Journal of Structural Chemistry
      • DOI: 10.1016/j.cjsc.2024.100413

  2. Title: “Enhanced Corrosion Resistance of Ag Electrode Through Ionized 2‐Mercaptobenzothiazole in Inverted Perovskite Solar Cells”

    • Authors: Yaohua Li, Xilai He, Ruiqi Zhu, Xingyuan Chen, Tong Wang, Xingyu Pu, Hui Chen, Qi Cao, Xuanhua Li
    • Year: 2024
    • Journal: Advanced Functional Materials
    • DOI: 10.1002/adfm.202413245

  3. Title: “Locking Organic Solvents by Crystallization-Induced Polymer Network”

    • Authors: Jinmeng Zhu, Jinghan Ding, Yuke Li, Zhang He, Zhenzhen Ma, Wenqiang Dong, Xichen Zhao, Xuanhua Li
    • Year: 2024
    • Journal: Construction and Building Materials
    • DOI: 10.1016/j.conbuildmat.2024.138844

  4. Title: “π-Interactions Suppression of Buried Interface Defects for Efficient and Stable Inverted Perovskite Solar Cells”

    • Authors: Hui Chen, Jiabao Yang, Qi Cao, Tong Wang, Xingyu Pu, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nano Energy
    • DOI: 10.1016/j.nanoen.2023.108883

  5. Title: “One‐Step Construction of a Perovskite/TiO₂ Heterojunction Toward Highly Stable Inverted All‐Layer‐Inorganic CsPbI₂Br Perovskite Solar Cells with 17.1% Efficiency”

    • Authors: Xingyu Pu, Qi Cao, Jie Su, Jiabao Yang, Tong Wang, Yixin Zhang, Hui Chen, Xilai He, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Advanced Energy Materials
    • DOI: 10.1002/aenm.202301607

  6. Title: “Internal Quantum Efficiency Higher Than 100% Achieved by Combining Doping and Quantum Effects for Photocatalytic Overall Water Splitting”

    • Authors: Youzi Zhang, Yuke Li, Xu Xin, Yijin Wang, Peng Guo, Ruiling Wang, Bilin Wang, Wenjing Huang, Ana Jorge Sobrido, Xuanhua Li
    • Year: 2023
    • Journal: Nature Energy
    • DOI: 10.1038/s41560-023-01242-7

  7. Title: “Hydrovoltaic Effect-Enhanced Photocatalysis by Polyacrylic Acid/Cobaltous Oxide–Nitrogen Doped Carbon System for Efficient Photocatalytic Water Splitting”

    • Authors: Xu Xin, Youzi Zhang, Ruiling Wang, Yijin Wang, Peng Guo, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-37366-3

  8. Title: “Room Temperature Nondestructive Encapsulation via Self-Crosslinked Fluorosilicone Polymer Enables Damp Heat-Stable Sustainable Perovskite Solar Cells”

    • Authors: Tong Wang, Jiabao Yang, Qi Cao, Xingyu Pu, Yuke Li, Hui Chen, Junsong Zhao, Yixin Zhang, Xingyuan Chen, Xuanhua Li
    • Year: 2023
    • Journal: Nature Communications
    • DOI: 10.1038/s41467-023-36918-x

  9. Title: “Single-Atom Iridium on Hematite Photoanodes for Solar Water Splitting: Catalyst or Spectator?”

    • Authors: Qian Guo, Qi Zhao, Rachel Crespo-Otero, Devis Di Tommaso, Junwang Tang, Stoichko D. Dimitrov, Maria-Magdalena Titirici, Xuanhua Li, Ana Belén Jorge Sobrido
    • Year: 2023
    • Journal: Journal of the American Chemical Society
    • DOI: 10.1021/jacs.

Souheyla MAMOUN | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Souheyla MAMOUN | Materials Science | Best Researcher Award

Lecturer at Abou Beker BELKAID-Tlemcen University, Algeria

Souheyla Mamoun is a dedicated physicist specializing in materials physics, with extensive experience in academia and research. Since September 2014, following her doctoral training at the University of Lorraine, France, she has served at the Department of Physics, Faculty of Sciences, University Abou-Bakr Belkaid, Tlemcen. Her teaching, mentoring, and leadership roles reflect her passion for education and scientific advancement. With expertise in computational physics, renewable energy, and materials science, she has contributed significantly to her field, mentoring students and collaborating on impactful projects. Souheyla’s dedication to fostering academic excellence is evident through her active involvement in university life, teaching innovative courses, and authoring educational materials. She remains a vital contributor to the advancement of renewable energy research and physics education.

Professional Profile

Education

Souheyla Mamoun holds a Ph.D. in Physics of Materials from the University of Lorraine, Metz, France, completed before September 2014. Her doctoral research emphasized advanced materials and their applications, laying the foundation for her expertise in computational and renewable energy physics. She also holds a Master’s degree with a focus on photovoltaic systems and renewable energy, culminating in a published work on photovoltaic installations for isolated sites. Her strong educational background underscores her technical proficiency and dedication to scientific innovation.

Professional Experience

Souheyla Mamoun has been a faculty member at the University Abou-Bakr Belkaid since 2014, advancing to the role of Maître de Conférence B in 2015. Her teaching portfolio spans a wide range of physics courses, including electromagnetism, vibrations, and computational physics. She has supervised Master’s theses on topics like perovskite solar cells, photovoltaic systems, and nanocrystals, mentoring future researchers. Beyond teaching, Souheyla has served in leadership roles, such as President of the Pedagogical Coordination Committee and Coordinator of the Physics License program. Her contributions extend to organizing doctoral entrance exams and actively participating in educational and research committees, demonstrating her commitment to academic leadership.

Research Interests

Souheyla’s research interests lie at the intersection of computational physics, materials science, and renewable energy. Her focus includes numerical modeling of photovoltaic systems, study of nanostructures, and the impact of temperature on perovskite-based solar cells. She is also interested in hybrid organic-inorganic materials and their applications in advanced energy systems. Her research aims to optimize the efficiency and sustainability of renewable energy systems through innovative materials and computational techniques, contributing to the global transition toward greener technologies.

Research Skills

Souheyla Mamoun possesses a strong skill set in computational physics, numerical modeling, and renewable energy systems analysis. She is proficient in designing and evaluating photovoltaic systems, modeling I-V characteristics, and analyzing nanostructures using advanced computational tools. Her expertise includes preparing educational resources, mentoring research projects, and conducting comprehensive studies on energy materials. Her ability to translate theoretical physics into practical applications demonstrates her technical versatility and commitment to solving real-world energy challenges.

Awards and Honors

Souheyla’s accomplishments include publishing an educational textbook on electromagnetism, validated by the Scientific Council of her faculty in 2021, providing valuable resources to undergraduate students. Additionally, her Master’s thesis was adapted into a published book on photovoltaic systems by the European University Editions in 2013, showcasing her early contributions to renewable energy research. Her leadership roles, such as heading pedagogical committees and coordinating academic programs, further highlight her recognition as a committed educator and researcher.

Conclusion

Souheyla Mamoun is a highly skilled educator, researcher, and academic leader, deeply committed to advancing the field of materials physics and renewable energy. Her contributions to teaching, mentoring, and research reflect her passion for fostering scientific knowledge and innovation. Her expertise in computational physics and sustainable energy systems positions her as a valuable asset to her academic institution and the broader scientific community. With her dedication to excellence and impactful contributions, Souheyla Mamoun is a strong candidate for the Best Researcher Award, deserving recognition for her achievements and potential to drive further advancements in her field.

Publication Top Notes

  1. New eco-friendly Rb2PtI6 based double perovskite solar cells with high photovoltaic performance up to 26% efficiency: Numerical simulation
    • Authors: Mamoun, S., Merad, A.E.
    • Year: 2025
  2. Numerical simulation of highly photovoltaic efficiency of InGaN based solar cells with ZnO as window layer
    • Authors: Annab, N.,
    • Year: 2023
    • Citations:0
  3. Electronic, magnetic and optical properties of Cr and Fe doped ZnS and CdS diluted magnetic semiconductors: revised study within TB-mBJ potential
    • Authors: Ghazal, W., Mamoun, S., Kanoun, M.B., Goumri-Said, S., Merad, A.E.
    • Year: 2023
    • Citations: 5
  4. A Novel Theoretical Prediction of Electronic Structure, Phase Stability, and Half-Metallic Ferromagnetic Behavior of New Quaternary RhFeTiZ (Z = Al, Si) Heusler Alloys
    • Authors: Dergal, S., Doumi, B., Mokaddem, A., Mamoun, S., Merad, A.E.
    • Year: 2016
    • Citations: 5
  5. Energy band gap and optical properties of lithium niobate from ab initio calculations
    • Authors:Mamoun, S.
    • Year: 2013
    • Citations: 67

 

Leila Nasiri | Composite Materials | Best Researcher Award

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Assist Prof Dr. Leila Nasiri | Composite Materials | Best Researcher Award

Researcher, Shahed University, Iran.

Leila Nasiri, born on August 28, 1988, is an accomplished academic and researcher at Shahed University, Iran. With a Ph.D. in Physiology, her research focuses on the biological effects of social stress and the health implications for chemically injured veterans. Her master’s thesis on antioxidant enzyme activity in broiler chickens led to five ISI publications. Nasiri’s doctoral work on the impact of sulfur mustard exposure on health earned high praise, resulting in numerous publications in prestigious journals. She has actively participated in various international conferences and workshops, enhancing her expertise in health equity and biological aging. Her academic contributions include leadership roles in symposiums and a notable H-index of 6 in Google Scholar. Nasiri’s work not only addresses critical health issues but also seeks to understand the complex interplay between socioeconomic factors and health outcomes. Her dedication positions her as a strong candidate for the Best Researcher Award.

Profile:

Education

Leila Nasiri holds a B.Sc. in General Biology from Shiraz University, Iran, completed in July 2013. She then pursued her M.Sc. in Physiology at Shahrekord University, where she focused on the evaluation of gene expression and antioxidant enzyme activity in broiler chickens with pulmonary hypertension, graduating with excellent honors in June 2015. Following her master’s degree, she continued her academic journey by enrolling in a Ph.D. program in Physiology at Shahed University, Tehran, from September 2017 to February 2022. Her doctoral research investigated the effects of sulfur mustard exposure on physiological health and premature aging in Iranian chemical victims, earning high praise from her thesis committee. Leila’s strong academic performance throughout her studies, reflected in her excellent thesis grades, showcases her dedication and expertise in the field of physiology and health equity.

Professional Experience

Leila Nasiri is an accomplished academic and researcher with significant experience in the fields of physiology and health equity. She served as a Visiting Professor at Islamic Azad University, teaching a range of subjects including general biology and biochemistry. Following her Ph.D., she worked at the Traditional Medicine Clinical Trial Research Center and the Immunoregulation Research Center at Shahed University, where she contributed to research on the biological effects of chemical exposure on health. As an Assistant Professor in the Department of Health Equity at Shahed University, she has focused on the impacts of socioeconomic status and social stress on physical and mental health, particularly among chemically injured veterans. Her research has resulted in numerous publications in high-impact journals, addressing critical issues related to biological aging, health disparities, and the physiological consequences of environmental toxins. Leila’s expertise positions her as a key contributor to advancing understanding in her field.

Research Skills

Leila Nasiri possesses a robust set of research skills that significantly contribute to her expertise in physiology and health equity. Her proficiency in advanced methodologies is demonstrated through her experience with clinical trials and research projects focused on the biological effects of chemical exposure. Leila has published numerous articles in prestigious international journals, showcasing her ability to conduct high-impact research in areas such as biological aging, immunoregulation, and the socioeconomic determinants of health. She is adept in techniques like real-time PCR and has participated in various workshops and conferences, further enhancing her knowledge base. Her collaborative work with established researchers and her role as a keynote speaker reflect her strong communication skills and leadership in scientific discourse. Leila’s diverse research interests, combined with her hands-on experience in both laboratory and field settings, position her as a valuable contributor to the scientific community, particularly in understanding the interplay between health and social factors.

Research Interest

Leila Nasiri’s research interests lie at the intersection of physiology, health equity, and the biological effects of social stress. She focuses on the mechanisms of aging, particularly in relation to socioeconomic status and its impact on health outcomes. Her work investigates the physiological health of chemically injured veterans, emphasizing the relationship between environmental exposures—such as sulfur mustard—and premature aging. Through her research, Nasiri aims to understand the biological markers of aging, including telomere length and inflammatory responses, to develop effective interventions for affected populations. Additionally, she explores the broader implications of social inequalities on physical and mental health, advocating for social justice in health policies. Her contributions in these areas aim to enhance our understanding of how socio-economic factors influence health and to promote equitable healthcare solutions.

Awards and Honors

Leila Nasiri has garnered several notable awards and honors throughout her academic career. She demonstrated exceptional talent during her master’s program in physiology, leading to recognition for her outstanding achievements. Her research contributions, particularly in the field of biological effects of social stress and the health impacts of chemical exposure, have been published in prestigious international journals, enhancing her reputation in the scientific community. In 2022, she served as a keynote speaker at the 26th National Congress and the 5th International Congress of Physiology and Pharmacology, showcasing her expertise and leadership. Additionally, Nasiri’s role as the executive secretary for significant symposia reflects her commitment to advancing research in health equity and social determinants of health. Her ongoing participation in international conferences and workshops highlights her dedication to continuous learning and collaboration, further solidifying her status as an emerging leader in her field. 🏆

Conclusion

Leila Nasiri is a highly qualified candidate for the Research for Best Researcher Award, showcasing significant contributions to the fields of physiology and health equity. Her strong publication record, leadership roles, and impactful research on the effects of environmental toxins highlight her potential to drive forward meaningful change in public health. Addressing areas for improvement, particularly in enhancing the reach of her research and securing funding, will bolster her already impressive profile. Overall, Leila’s work embodies the spirit of innovation and commitment that this award seeks to recognize. 🏆🌟

Publication Top Notes

  1. Title: Relationships between DNA oxidative damage, testosterone, and body mass index in sulfur mustard-chemical veterans
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Hassanpour, H., Kaboudanian Ardestani, S., Behboudi, H.
    Journal: Toxicologie Analytique et Clinique
    Year: 2024
    Volume: 36(2), pp. 166–172
  2. Title: Evaluation of metabolic profile following delayed toxicity of sulfur mustard in chemical veterans
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Ghazanfari, T., Hassanpour, H., Ardestani, S.K.
    Journal: Toxicologie Analytique et Clinique
    Year: 2024
    Citations: 0 (Article in Press)
  3. Title: Transcription of biological aging markers (ANRIL, P16INK4a, TBX2, and TERRA) and their correlations with severity of sulfur mustard exposure in veterans
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Hassanpour, H., Ghaffarpour, S., Zamani, M.S.
    Journal: Drug and Chemical Toxicology
    Year: 2024
    Citations: 0 (Article in Press)
  4. Title: Canine sperm motility is associated with telomere shortening and changes in expression of shelterin genes
    Authors: Hassanpour, H., Mirshokraei, P., Salehpour, M., Ghareghani, P., Nasiri, L.
    Journal: BMC Veterinary Research
    Year: 2023
    Volume: 19(1), 236
  5. Title: Increased serum lipofuscin associated with leukocyte telomere shortening in veterans: a possible role for sulfur mustard exposure in delayed-onset accelerated cellular senescence
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Hassanpour, H., Mohseni Majd, M.-A., Rahimlou, B.
    Journal: International Immunopharmacology
    Year: 2023
    Volume: 114, 109549
  6. Title: Concomitant use of relative telomere length, biological health score and physical/social statuses in the biological aging evaluation of mustard-chemical veterans
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Hassanpour, H., Ardestani, S.K., Ghazanfari, T.
    Journal: International Immunopharmacology
    Year: 2022
    Volume: 109, 108785
  7. Title: Sulfur mustard and biological ageing: A multisystem biological health score approach as an extension of the allostatic load in Sardasht chemical veterans
    Authors: Nasiri, L., Vaez-Mahdavi, M.-R., Hassanpour, H., Kaboudanian Ardestani, S., Askari, N.
    Journal: International Immunopharmacology
    Year: 2021
    Volume: 101, 108375
  8. Title: ELECTROCARDIOGRAM ANALYSIS of the GOLDEN (CHRYSOLOPHUS PICTUS) and SILVER (LOPHURA NYCTHEMERA) PHEASANTS
    Authors: Hassanpour, H., Zarei, H., Nasiri, L., Hojjati, P.
    Journal: Journal of Zoo and Wildlife Medicine
    Year: 2018
    Volume: 49(4), pp. 881–886
  9. Title: Analysis of the Normal Electrocardiogram in Wild Rooks (Corvus frugilegus)
    Authors: Hassanpour, H., Dehkordi, H.A., Khosravi, M., Soltani, S., Nasiri, L.
    Journal: Journal of Avian Medicine and Surgery
    Year: 2016
    Volume: 30(4), pp. 329–334
  10. Title: Variation of heat shock protein gene expression in the brain of cold-induced pulmonary hypertensive chickens
    Authors: Hassanpour, H., Khosravi Alekoohi, Z., Madreseh, S., Bahadoran, S., Nasiri, L.
    Journal: British Poultry Science
    Year: 2016
    Volume: 57(5), pp. 636–642