Nursaya Makayeva | Carbon Capture and Storage | Best Researcher Award

Published on by Cryogenicist

Dr. Nursaya Makayeva | Carbon Capture and Storage | Best Researcher Award

Senior Researcher | Institute of Combustion Problems | Kazakhstan

Nursaya Makayeva is a dynamic educator and analytical chemist from Al-Farabi Kazakh National University, specializing in research and development, quality control, and advanced analytical methods. With several years of experience in academic and research settings, she has contributed significantly to the fields of catalysis, methane decomposition, and sustainable energy solutions. Her expertise bridges both teaching and applied research, making her a valuable contributor to the scientific community.

Professional Profile

ORCID

Education

Nursaya Makayeva pursued her higher education at Al-Farabi Kazakh National University, where she completed her bachelor’s and master’s degrees in chemistry. She continued her academic journey by enrolling in a doctoral program, deepening her expertise in catalysis and advanced chemical processes. Alongside her formal academic qualifications, she gained practical research experience through internships at the Center of Physico-Chemical Methods of Research and Analysis of Al-Farabi KazNU and at the Republican Center for Structural Research in Tbilisi, Georgia. These opportunities enriched her academic foundation by combining theoretical learning with hands-on laboratory practice.

Experience

Her professional career combines teaching, research, and practical application. As an educator, she designed engaging curricula and provided academic support that fostered student growth. In research, she served as a junior researcher at institutions such as the Institute of Combustion Problems and the Center of Physico-Chemical Methods of Research and Analysis, focusing on experimental design, catalytic systems, and advanced laboratory analysis. Skilled in techniques like chromatography, voltammetry, and TPR-H2, she applied these methods to produce reliable scientific outcomes. Her collaborations with senior researchers, contributions to R&D projects, and participation in international conferences further highlight her growing role in the global scientific community.

Research Focus

Nursaya’s primary research interests lie in catalysis, hydrogen production, and carbon utilization, with a particular emphasis on methane decomposition processes. Her studies explore the development and optimization of catalysts, including mono- and bimetallic systems, for efficient energy conversion. She has also investigated the effects of preparation methods and the incorporation of rare earth oxides, such as cerium, on catalyst performance. Her recent contributions extend to sustainable solutions in carbon dioxide utilization, where she has co-authored review studies on catalytic, photocatalytic, and electrocatalytic processes for CO₂ conversion. By addressing the intersection of renewable energy, environmental protection, and advanced materials, her research supports global efforts toward cleaner energy systems and reduced greenhouse gas emissions.

Publication Top Notes

Title: Advancements in catalytic, photocatalytic, and electrocatalytic CO₂ conversion processes: Current trends and future outlook
Year: 2024

Title: Effects of cerium oxide on the activity of Fe-Ni/Al₂O₃ catalyst in the decomposition of methane
Year: 2024

Title: Electrochemical synthesis of Fe-containing composite for decomposition of methane into COx-free hydrogen and nano-carbon
Year: 2022

Title: Effect of Preparation Method on the Activity of Fe₂O₃-NiO/γ-Al₂O₃ Catalyst in Decomposition of Methane
Year: 2022

Conclusion

Nursaya Makayeva exemplifies the qualities of an emerging leader in chemistry, combining strong academic foundations with impactful research and practical applications. Her dedication to advancing catalytic science, her ability to merge teaching with high-quality research, and her collaborative approach to scientific problem-solving highlight her as a deserving candidate for recognition. Through her contributions to methane decomposition, hydrogen production, and carbon dioxide utilization, she has positioned herself at the forefront of sustainable energy research. Her growing body of publications, active participation in international collaborations, and innovative patent demonstrate her potential to continue shaping the field of chemistry with lasting impact.

Marianna Vályi Nagy | Sustainability in Cryogenic Technologies | Best Researcher Award

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Ms. Marianna Vályi Nagy | Sustainability in Cryogenic Technologies | Best Researcher Award

Research assistant at Hungarian University of Agriculture and Life Sciences | Hungary

Marianna Vályi Nagy is a research assistant at the Hungarian University of Agriculture and Life Sciences (MATE), Institute of Agronomy, whose academic journey and professional career have been devoted to advancing sustainable agricultural practices. With a strong foundation in horticultural engineering, plant protection, and agronomy, she has established herself as a dedicated researcher focusing on mixed cropping systems, crop interactions, and climate-resilient agricultural methods. Her work bridges fundamental agricultural sciences with applied research, producing impactful results that contribute both to academic knowledge and to real-world agricultural innovations.

Professional Profile

ORCID

Education

Marianna began her academic journey at Corvinus University in Budapest, where she graduated as a Horticultural Engineer. Her interest in crop science and plant interactions motivated her to pursue further qualifications, and she later obtained a specialized degree in Plant Protection Engineering from the University of Szeged. Her commitment to higher learning led her to doctoral studies at the Hungarian University of Agriculture and Life Sciences, supported by the Young Researcher Training Program. Throughout her academic development, Marianna demonstrated a keen ability to integrate multiple disciplines within plant sciences, aligning her expertise with the pressing challenges of climate change, food security, and sustainable farming systems.

Experience

Marianna’s professional experience is rooted in her contributions to both research and applied agricultural innovation. She began her research career at the National Agricultural Research and Innovation Centre, where she gained valuable experience in experimental design and crop management practices. Later, she joined the Applied Agronomy Research Station, which became part of MATE, and contributed to experiments that combined scientific rigor with industry-driven needs. Over the years, she has participated in numerous commissioned research projects, collaborating with agricultural companies to test crop varieties, seeding strategies, and sustainable cultivation methods. This blend of academic and industry engagement has allowed her to create a research portfolio that is both scientifically robust and practically relevant.

Research Focus

Marianna’s primary research interests revolve around mixed cropping systems, with a particular emphasis on winter wheat–winter pea interactions. She explores the development process of companion crops, analyzing both their quantitative and qualitative characteristics. Her studies extend beyond traditional yield-focused research by considering plant development, interaction dynamics, seeding rates, and variety selection, providing a comprehensive understanding of crop coexistence. These investigations address one of the greatest challenges in modern agriculture: identifying cultivation methods that are environmentally sustainable, resilient to climate change, and adaptable to market fluctuations. Through her research, Marianna contributes to shaping agricultural practices that balance productivity with ecological responsibility.

Publication Top Notes

Title: Yield and Quality Parameters of Winter Wheat in a Wheat–Pea Mixed Cropping System
Authors: Marianna Vályi-Nagy, István Kristó, Melinda Tar, Attila Rácz, Lajos Szentpéteri, Katalin Irmes, Csaba Gyuricza, Márta Ladányi
Summary: This study evaluated wheat–pea intercropping, showing improved grain yield, protein content, and crop resilience, highlighting ecological and economic advantages compared to monoculture wheat cultivation.

Title: Competition Indices and Economic Benefits of Winter Wheat and Winter Peas in Mixed Cropping
Authors: Marianna Vályi-Nagy, István Kristó, Melinda Tar, Attila Rácz, Lajos Szentpéteri, Katalin Irmes, Gergő Péter Kovács, Márta Ladányi
Summary: Research analyzed competition indices and profitability of wheat–pea mixtures, concluding intercropping enhances land-use efficiency and offers greater economic sustainability than sole cropping systems.

Title: The Effect of Foliar Zinc Application on the Leaf Chlorophyll Concentrations and Grain Yields of the Winter Wheat (Triticum aestivum L.) in the Field Experiments of Two Seasons
Authors: Katalin Irmes, István Kristó, Lajos Szentpéteri, Attila Rácz, Marianna Vályi-Nagy, Mária Katalin Kassai, Klára Veresné Valentinyi, Melinda Tar
Summary: Two-season field trials revealed foliar zinc application increased chlorophyll levels and grain yields in winter wheat, emphasizing zinc’s critical role in improving crop productivity.

Title: Effects of Winter Cereals (Triticum aestivum L., Hordeum vulgare L., Triticosecale Wittmack) and Winter Pea (Pisum sativum L.) Intercropping on Weed Cover in South-Eastern and Central Hungary
Authors: Attila Rácz, Marianna Vályi-Nagy, Melinda Tar, Katalin Irmes, Lajos Szentpéteri, Apolka Ujj, Klára Veresné Valentinyi, Márta Ladányi, István Kristó
Summary: Field experiments demonstrated cereal–pea intercropping significantly reduced weed cover, promoting ecological weed management and enhancing sustainability in Hungarian winter cropping systems.

Conclusion

Marianna Vályi Nagy stands out as a promising researcher whose dedication to sustainable agriculture is evident in her academic achievements, applied research, and innovative contributions. Her expertise in mixed cropping systems addresses one of the most urgent agricultural challenges of our time—developing cultivation methods that align with ecological principles while ensuring productivity and resilience. With a growing body of publications, patents, and industry collaborations, she exemplifies the qualities of a forward-thinking researcher who bridges science and practice. Her membership in professional associations and recognition through national research programs further reinforce her position as an emerging leader in agricultural sciences. Marianna’s work holds significant potential to guide future research directions and agricultural policies, making her a strong candidate for the Best Researcher Award.