Assist. Prof. Dr. Leila Ma’mani | Sustainability in Material Science | Best Researcher Award

Assist. Prof. Dr. Leila Ma’mani | Sustainability in Material Science | Best Researcher Award

Agricultural Biotechnology Research Institute of Iran (ABRII) | Iran

Assist. Prof. Dr. Leila Ma’mani is a distinguished Iranian researcher in the fields of nanotechnology, organic chemistry, and advanced nano-drug delivery systems, currently serving as Assistant Professor in the Department of Nanotechnology at the Agricultural Biotechnology Research Institute of Iran under AREEO. She has built an outstanding scientific profile with 2,290 citations, indexed across 1,963 documents, and has produced 76 publications, reflecting her extensive contributions to scientific knowledge. Her impressive scholarly influence is further demonstrated by an h-index of 28, positioning her among the top-tier researchers in nanotechnology and applied agricultural sciences. Dr. Ma’mani’s research focuses on the design and synthesis of nanoporous and hybrid nanocomposite delivery systems, targeted release technologies for bioactive and chemical agents, magnetic nanoparticles, nanobiocatalysis, environmentally sustainable nanomaterials, and innovative CRISPR/Cas-based agricultural nanocarriers. She has actively contributed to national and international scientific leadership, serving in multiple managerial and committee roles including headship of the Nanotechnology Department and secretary roles in scientific and research committees within the Ministry of Agriculture. Dr. Ma’mani has supervised and advised numerous postgraduate researchers and continues to support multidisciplinary training and innovation. Her awards and recognitions highlight her leadership and pioneering contributions in the development of sustainable nanotechnological approaches for agriculture, biotechnology, plant science, and medical applications. Throughout her career, she has published widely in high-impact journals and collaborated with research teams working on drug delivery, nanopesticides, nano-fertilizers, advanced catalytic materials, and biosafety applications. Her work has produced real-world contributions that address global needs related to food security, crop protection, biomedical therapy, environmental safety, and smart controlled-release nanotechnology systems. Dr. Leila Ma’mani remains deeply committed to advancing scientific excellence and translating research outcomes into practical industrial, agricultural, and health solutions through cutting-edge nanotechnology innovation.

Profiles: Scopus | Google Scholar

Featured Publications

Jokarshourijeh, F., Ma’mani, L., Hossein, R., & Sheikhigarjan, A. (2025). Organically modified biogenic graphene oxide–mesoporous silica nanoparticles for eco-friendly and tailored release of Azadirachtin (neem) biopesticide. Chemical and Biological Technologies in Agriculture, 12(1), 159.

Shemshaki, N. S., Sharifi, K., Khodaparast, S. A., Mamani, L., & Mousanejad, S. (2024). The efficiency of mineral compounds for the control of strawberry blossom blight caused by Botrytis cinerea. European Journal of Plant Pathology, 170(3), 491–500.

Eigharlou, M., Javidpoor, S., Mohammadi, A., Khelghatibana, F., Nami, Y., … (2024). Evaluation of herbicidal potential of Siderophores produced by Amycolatopsis lurida strain 407. Scientific Reports, 14(1), 26212.

Najafzadeh Nansa, M., Ma’mani, L., & Ghorbanloo, M. (2024). Control of mushroom sciarid fly with an ecofriendly nanoinsecticide. Journal of Biosafety, 16(4), 81–94.

Tahere Raiesi Ardali, A. M., Ma’mani, L., & Chorom, M. (2023). *The efficiency of Fe3O4 nanoparticles coated with humic acid on tomato growth characteristics (Lycopersicon esculentum L.). Journal of Plant Ecophysiology, 1(14), 34.

Ms. Lihong DING | Material Processing Techniques | Best Researcher Award

Ms. Lihong DING | Material Processing Techniques | Best Researcher Award

Jiangsu University of Technology | China

Ms. Lihong Ding is an accomplished researcher and experimenter in the field of mechanical engineering, currently serving at Jiangsu University of Technology, where she plays a key role in advancing laboratory instruction, engineering innovation, and collaborative research initiatives. With strong academic training in mechanical engineering and extensive hands-on laboratory experience, she has established herself as a dedicated educator and emerging researcher contributing to the development of advanced manufacturing processes and high-performance materials. Her work centers on laser cladding additive manufacturing, with a particular focus on structural integrity, crack arrest mechanisms, and material performance enhancement for demanding industrial environments, including aerospace and high-strength engineering systems. Ms. Ding has authored multiple research publications in reputable peer-reviewed journals, including core and SCI-indexed articles, demonstrating her commitment to academic excellence and knowledge dissemination. Among her notable scientific contributions is her research on the crack arrest effect of FeMnNiSi-Inconel625-Ni60 laminated structures produced through laser cladding additive manufacturing, which provides valuable insight into process-structure-property relationships and improved crack resistance for advanced gradient materials. She has participated in collaborative education initiatives supported by national academic-industry innovation platforms and has contributed to research project development related to emerging engineering applications. In addition to her scientific achievements, she has authored educational materials, including the professional training book “CNC Lathe Skill Training and Competition Question Selection,” supporting skills development and technical education for engineering students. Through her dedication to experimental teaching, research supervision, and laboratory innovation, Ms. Ding continues to foster strong academic-industry integration and advancement in next-generation manufacturing technologies. Her work reflects a commitment to excellence, professional development, and meaningful scientific impact, positioning her as a promising researcher and valued contributor to the mechanical engineering community.

Profile: Orcid

Featured Publication

Ding, L., Lei, W., & Chen, J. (2025). Crack arrest effect of FeMnNiSi–Inconel 625–Ni60 laminated structure prepared by laser cladding additive manufacturing. Materials, 18(21), 4996.

Mr Yongshan Du | Recycling and Circular Economy in Materials | Best Researcher Award

Mr Yongshan Du | Recycling and Circular Economy in Materials | Best Researcher Award

Mr. Yongshan Du 🇨🇳 is an Associate Professor at the School of Business Administration, China University of Petroleum–Beijing at Karamay. His research focuses on green finance 🌱, energy policy ⚡, digital finance 💻, and sustainable development 🌍. He employs advanced econometric models 📊 like PSM-DID and Generalized Synthetic Control to evaluate policy impacts on corporate ESG performance, urban innovation, and eco-tourism planning. Mr. Du’s interdisciplinary work bridges economics, environmental science, and technology, contributing to both academic and policy landscapes. His impactful publications and commitment to carbon neutrality 🌿 make him a leading voice in environmental and financial research 🔬📘.

Mr Yongshan Du, China University of Petroleum-Beijing at Karamay, China

Profile

SCOPUS

Experience 💼

Mr. Yongshan Du serves as an Associate Professor at the School of Business Administration, China University of Petroleum–Beijing at Karamay 🏫🇨🇳. His academic title reflects his expertise in green development 🌍, energy economics ⚡, and digital transformation 📈. A pioneer in applying advanced econometric tools 🧮 to real-world environmental and policy challenges, he leads impactful research projects on carbon trading, ESG performance 🏢✅, and eco-entrepreneurship 💡🌿. As a scholar deeply involved in interdisciplinary innovation 💼🔬, his title encapsulates both his academic standing and leadership in advancing sustainable solutions for future economic and environmental resilience 🌐📚.

Research Focus 🔎

Mr. Yongshan Du’s research focuses on the dynamic intersections of Digital Finance 💻💰, Energy Finance ⚡📊, and Green Innovation 🌿🏭. He explores how technology-driven financial systems can support low-carbon transitions, ESG improvements, and sustainable development goals 🌍🔋. His work critically evaluates carbon trading policies, green entrepreneurship, and eco-efficiency in tourism and urban economies 🏙️🧳📉. By blending quantitative methods with policy relevance, Mr. Du contributes to reshaping economic and environmental governance through data-driven insights 📈🔎. His research promotes a greener, smarter financial future, influencing both academic circles and national policy-making platforms 🧠📑🇨🇳.

Publications 📘

“The Impact of Low-Carbon City Pilot Policies on Green Innovation Efficiency in Chinese Cities: An Empirical Analysis Based on the Multi-Period PSM-DID Model”
🧑‍🔬 Author: Yongshan Du
🔬 Focus: Green Innovation, Policy Impact, Urban Sustainability
📊 Method: Multi-Period Propensity Score Matching – Difference in Differences (PSM-DID)

📗 “Can Carbon Emission Trading Policy Improve Corporate ESG Performance? – An Empirical Test Based on the Generalized Synthetic Control Method”
🧑‍🔬 Author: Yongshan Du
🌍 Focus: Carbon Trading, ESG Performance, Environmental Economics
🧮 Method: Generalized Synthetic Control Method

🌲 “Evaluating the Sustainability of a Tourism System Based on Emergy Accounting and Emergetic Ternary Diagrams: A Case Study of the Xinjiang Kanas Tourism Area”
🧑‍🔬 Author: Yongshan Du
🏞 Focus: Sustainable Tourism, Emergy Analysis, Systems Ecology
📈 Tool: Emergy Accounting, Emergetic Ternary Diagrams

💡 “The Impact of Technology Finance Pilot Policies on the Quality of Urban Entrepreneurship in China”
🧑‍🔬 Author: Yongshan Du
🚀 Focus: Tech Finance, Urban Innovation, Policy Analysis
🏙 Context: Urban Entrepreneurship, Pilot Policy Impact