Afsaneh Heydari | Horticulture | Best Researcher Award

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Dr. Afsaneh Heydari | Horticulture | Best Researcher Award

Researcher at Shiraz University | Iran

Dr. Afsaneh Heydari is a dedicated researcher at Shiraz University whose work focuses on agricultural meteorology, climate variability, and the hydro-environmental systems of arid and semi-arid regions. Her research explores the interconnections between the Middle East and the West Indian Subcontinent in the context of climate change, particularly examining the modulation roles of the Atlantic Meridional Oscillation (AMO) and monsoon cloud dynamics. Through advanced statistical and computational modeling, she has provided valuable insights into spatial disparities in climate trends and their implications for regional agriculture and water management. Her collaborative research, published in high-impact journals such as Climate (MDPI), demonstrates strong analytical rigor and contributes meaningfully to understanding climate-driven challenges affecting food and water security. Dr. Heydari’s work bridges hydrology, climatology, and sustainable resource management—making her a deserving candidate for the Best Researcher Award for her innovative contributions to advancing scientific knowledge in climate change impacts and adaptation strategies within horticultural and agricultural ecosystems.

Profile : Scopus

Featured Publications

All-optical XOR, XNOR, NAND and OR logic gates based on photonic crystal 3-DB coupler for BPSK signals. Journal of Optical Communications.

Application of UV/Vis spectrophotometry based on using least squares support vector machine and continuous wavelet transform methods for the simultaneous analysis of antibiotics drugs in tablet formulation: Comparison with HPLC method.

Heydari, A., Nazemosadat, M. J., & Hosseinzadehtalaei, P. Climate change in the Middle East and the West Indian Subcontinent: Geographic interconnections and the modulation roles of the extreme phases of the Atlantic Meridional Oscillation (AMO) and the monsoon cloudiness. Climate.

Seyed Mohammad Jafar Nazemosadat | Ecology | Best Researcher Award

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Prof. Seyed Mohammad Jafar Nazemosadat | Ecology | Best Researcher Award

Academic at Shiraz University | Iran

Prof. Seyed Mohammad Jafar Nazemosadat is a distinguished climatologist and agro-meteorologist whose pioneering research has significantly advanced the understanding of climate dynamics in the Middle East. His work has illuminated the complex interactions between oceanic, atmospheric, and terrestrial systems, particularly emphasizing how phenomena such as ENSO, the Madden–Julian Oscillation (MJO), and the Atlantic Meridional Oscillation (AMO) influence precipitation and temperature variability across Iran and neighboring regions. He has led extensive studies on climate change impacts, drought forecasting, and land-use dynamics, integrating remote sensing and satellite-based data analysis into agricultural meteorology. His seminal contribution established the first proven linkage between Iran’s precipitation patterns and ENSO—a breakthrough that reshaped regional climate modeling approaches. As founder of the Oceanic and Atmospheric Research Centre at Shiraz University, he has fostered interdisciplinary research on satellite-based climate monitoring. With over 40 English-indexed journal publications, 55 Persian papers, and 100 conference contributions, Prof. Nazemosadat’s work has had enduring influence on sustainable water and land management strategies in arid and semi-arid ecosystems. His scholarly impact and leadership exemplify excellence in ecological and atmospheric research, positioning him as a deserving candidate for the Best Researcher Award.

Profile : Google Scholar | ORCID

Featured Publications

Nazemosadat, M. J., & Cordery, I. (2000). On the relationships between ENSO and autumn rainfall in Iran. International Journal of Climatology: A Journal of the Royal Meteorological Society, 20(6), 206–214.

Nazemosadat, M. J., & Ghasemi, A. R. (2004). Quantifying the ENSO-related shifts in the intensity and probability of drought and wet periods in Iran. Journal of Climate, 17(20), 4005–4018.

Danandeh Mehr, A., Kahya, E., Şahin, A., & Nazemosadat, M. J. (2015). Successive-station monthly streamflow prediction using different artificial neural network algorithms. International Journal of Environmental Science and Technology, 12(7), 2191–2200.

Nazem, A. S. M. J., Samani, N., Barry, D. A., & Moulaei, N. M. (2006). ENSO forcing on climate change in Iran: Precipitation analysis. Iranian Journal of Science and Technology, Transaction B: Engineering, 30(4), 96–105.*

Shirvani, A., Nazemosadat, S. M. J., & Kahya, E. (2015). Analyses of the Persian Gulf sea surface temperature: Prediction and detection of climate change signals. Arabian Journal of Geosciences, 8(4), 2121–2130.*

Diego Luna | Forest Ecology | Best Researcher Award

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Prof. Dr. Diego Luna | Forest Ecology | Best Researcher Award

Professor at Cordoba University | Spain

Prof. Dr. Diego Luna is a distinguished Professor Emeritus in Organic Chemistry with a career dedicated to advancing catalytic processes and sustainable energy solutions. Over several decades, he has combined fundamental research with applied innovation, contributing to the fields of heterogeneous catalysis, biofuels, and fine chemical production. Recognized for his ability to bridge scientific discovery with practical application, he has played a vital role in directing PhD research, leading national and international projects, and contributing to global scientific discussions through conferences and professional societies. His work not only advances scientific knowledge but also directly addresses pressing environmental challenges by developing cleaner, renewable alternatives to fossil fuels. With a legacy of impactful research and academic leadership, he continues to inspire innovation in chemical sciences.

Professional Profile 

Education

Prof. Dr. Diego Luna’s academic journey reflects a strong foundation in chemical sciences, beginning with a degree in Chemistry, followed by advanced specialization in Organic Chemistry. His early academic training focused on organic synthesis and reaction mechanisms, setting the stage for a lifelong commitment to catalysis research. He later earned a doctorate in Chemical Sciences, producing a highly regarded dissertation on catalytic hydrogenation, which received the highest academic distinction. Throughout his educational path, he was mentored by leading scholars in organic chemistry and catalysis, which strengthened his expertise in both theoretical and experimental approaches. His studies provided him with rigorous training in reaction kinetics, heterogeneous catalysis, and the application of inorganic solids as supports for complex processes. This strong educational background not only anchored his future research but also positioned him as a mentor to successive generations of chemists and engineers who benefitted from his teaching and supervision.

Professional Experience

Prof. Dr. Diego Luna has held various academic and leadership positions throughout his career, steadily progressing from early teaching roles to full professorship and later being named Professor Emeritus. His professional journey includes decades of teaching chemistry, biochemistry, and industrial engineering at the University of Córdoba, where he also supervised numerous postgraduate programs and served in administrative roles such as Vice-Dean and Department Secretary. He has been actively engaged in designing and teaching specialized courses in organic chemistry, catalysis, and biofuels within both undergraduate and postgraduate curricula. In addition to teaching, he has participated in over thirty national and international research projects, often serving as principal investigator. His contributions extend beyond academia through collaborations with industry, technology transfer initiatives, and leadership in the establishment of research-based enterprises. His career demonstrates a balance of research excellence, teaching dedication, and administrative responsibility, reflecting his role as both a scientist and academic leader.

Research Interests

The research interests of Prof. Dr. Diego Luna focus on heterogeneous catalysis, enzyme immobilization, and the sustainable production of biofuels and fine chemicals. His work emphasizes the use of inorganic solids as catalysts and supports for metals, organometallic complexes, and enzymes to enable efficient chemical transformations. A significant part of his research explores triglyceride biorefineries and catalytic systems for producing hydrogen, biodiesel, and other renewable fuels. His innovative investigations into the heterogenization of costly catalysts, particularly lipases, have opened pathways for large-scale industrial applications of biocatalysis. More recently, his focus has shifted toward enabling the direct use of vegetable oils as biofuels, developing low-cost, renewable mixtures suitable for replacing fossil fuels in combustion engines. His research also explores green hydrogen production and carbon-neutral fuel systems, demonstrating a forward-looking approach to energy transition. These interests place him at the intersection of green chemistry, renewable energy, and industrial innovation.

Research Skills

Prof. Dr. Diego Luna possesses advanced expertise in organic synthesis, catalysis, and biochemical applications of enzymes, making him highly skilled in both experimental and applied research. His technical skills include designing and characterizing heterogeneous catalytic systems, optimizing reaction conditions, and employing spectrometric and structural analysis techniques to investigate complex chemical processes. He has successfully applied these skills to develop novel catalytic methods for producing biofuels and fine chemicals, advancing industrial chemistry. His ability to integrate enzymology into catalysis, particularly through immobilization techniques, highlights his interdisciplinary strength. Beyond laboratory skills, he is adept at managing large-scale research projects, fostering collaborations, and securing competitive funding. He is also experienced in supervising doctoral and master’s research, ensuring rigorous training for early-career scientists. His skills extend to knowledge transfer, demonstrated by his role in patent development and in founding a technology-based enterprise, bridging academic innovation with commercial applications in green chemistry.

Awards and Honors

Prof. Dr. Diego Luna has received numerous awards and honors that recognize his scientific excellence and contributions to applied organic chemistry and sustainable energy research. Among his distinctions is the prestigious Annual Research Award in Applied Organic Chemistry, acknowledging his pioneering studies in catalysis. He has also been honored with awards related to environmental research and knowledge transfer, reflecting his commitment to both academic discovery and industrial innovation. His patents on enzymatic biodiesel production and catalyst development have not only earned scientific recognition but also supported the creation of a technology-based company dedicated to green chemistry applications. In addition, he has received distinctions from professional societies and university bodies for his leadership in advancing scientific innovation and fostering collaborations. These awards reflect his dual impact in academic and applied settings, highlighting his ability to transform research into practical technologies that contribute to sustainable development and energy transition.

Publications Top Noted

  • Title: Internal Combustion Engines and Carbon-Neutral Fuels: A Perspective on Emission Neutrality in the European Union
    Year: 2024
    Citation: 9

  • Title: Current Research on Green Ammonia (NH3) as a Potential Vector Energy for Power Storage and Engine Fuels: A Review
    Year: 2023
    Citation: 26

  • Title: A Review on Green Hydrogen Valorization by Heterogeneous Catalytic Hydrogenation of Captured CO2 into Value-Added Products
    Year: 2023
    Citation: 20

  • Title: Advanced Biofuels from ABE (Acetone/Butanol/Ethanol) and Vegetable Oils (Castor or Sunflower Oil) for Using in Triple Blends with Diesel: Evaluation on a Diesel Engine
    Year: 2022
    Citation: 13

  • Title: Biodiesel Is Dead: Long Life to Advanced Biofuels—A Comprehensive Critical Review
    Year: 2022
    Citation: 37

Conclusion

Prof. Dr. Diego Luna’s outstanding scientific achievements, groundbreaking contributions to renewable fuels and green chemistry, and extensive academic leadership make him highly suitable for the Best Researcher Award. His career reflects both depth and breadth of scholarship, combining pioneering research with practical industrial applications. While opportunities exist to further expand global collaborations and outreach, his lifelong commitment to advancing science and fostering innovation strongly positions him as an exemplary candidate for this honor.