Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award

Dr Jurgita Malaiskiene | Building Materials based on waste | Best Paper Award

Chief researcher, Vilnius Gediminas Technical University, Lithuania

Jurgita Malaiškienė is a distinguished researcher affiliated with Vilnius Gediminas Technical University in Lithuania. With a robust academic background, she specializes in materials science, focusing on the innovative use of industrial waste in construction. Her work aims to enhance the sustainability of building materials and improve the durability of concrete. An advocate for environmental stewardship, Jurgita actively engages in projects that promote recycling and the utilization of by-products in civil engineering. Her research has garnered significant attention, leading to numerous publications and collaborations with experts in the field.

Profile

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Strengths for the Award

Jurgita Malaiškienė exemplifies excellence in the field of materials science, with a strong focus on sustainability in construction. Her impressive h-index of 11 and 490 citations reflect the significant impact of her research, particularly in utilizing industrial waste to enhance concrete durability. Her recent publications, including studies on the influence of silica fly ash and electronic waste glass, demonstrate her innovative approach and commitment to addressing environmental challenges. Jurgita’s active engagement in collaborative projects further strengthens her profile, as she effectively bridges academia and industry. Additionally, her contributions to open-access research promote knowledge sharing and accessibility in the scientific community.

Areas for Improvement

While Jurgita has a solid foundation in publication and citation metrics, expanding her presence in international conferences and workshops could enhance her visibility and influence. Increasing the diversity of her research topics, such as exploring new materials or technologies, could also broaden her impact. Additionally, establishing mentorship programs for emerging researchers would enrich her contributions to the academic community and foster the next generation of scientists.

Education

Jurgita Malaiškienė earned her Master’s degree in Civil Engineering from Vilnius Gediminas Technical University, where she developed a keen interest in material properties and sustainable construction practices. She subsequently pursued a Ph.D. in Construction Materials, focusing on the durability and performance of concrete incorporating industrial by-products. Her education emphasized both theoretical and practical aspects of civil engineering, equipping her with the knowledge to address contemporary challenges in the field. Through her academic journey, she has gained a comprehensive understanding of material science and engineering principles, which she applies in her research to innovate and improve construction methodologies.

Experience

Jurgita Malaiškienė has extensive experience in both academic and research settings. Currently, she is a researcher and lecturer at Vilnius Gediminas Technical University, where she teaches courses on construction materials and sustainability. Over the years, she has participated in various national and international research projects aimed at developing eco-friendly construction solutions. Her role often involves collaboration with industry stakeholders, contributing to applied research that bridges the gap between academia and practice. Jurgita has also served on several committees focused on advancing civil engineering education and research in Lithuania. Her dedication to mentorship and guidance has helped shape the next generation of engineers.

Awards and Honors 

Jurgita Malaiškienė’s contributions to the field of civil engineering have been recognized through various awards and honors. She received the Young Researcher Award from the Lithuanian Academy of Sciences for her innovative work on sustainable materials. Additionally, her research projects have been funded by national grants aimed at promoting environmental sustainability in construction. Jurgita has been invited to present her findings at numerous international conferences, where she has received accolades for her insightful contributions to discussions on recycling and waste management in civil engineering. Her commitment to excellence in research and education continues to inspire her peers and students alike.

Research Focus

Jurgita Malaiškienė’s research primarily focuses on the utilization of industrial waste materials in construction, particularly in the context of concrete durability and sustainability. She explores the effects of various by-products, such as fly ash, slag, and recycled glass, on the mechanical properties and longevity of cementitious materials. Her work aims to innovate recycling methods that enhance the performance of construction materials while minimizing environmental impact. Jurgita also investigates the microstructural changes that occur when integrating waste materials into concrete mixtures, aiming to develop more resilient and eco-friendly building solutions. Through her research, she contributes significantly to advancing sustainable practices within the civil engineering sector.

Publication Top Notes

  • The Influence of Silica Fly Ash and Wood Bottom Ash on Cement Hydration and Durability of Concrete 🌿
  • Possibilities to Recycle Thermal Power Plant By-Products in Refractory Castables ♻️
  • Impact of Electronic Waste Glass on the Properties of Cementitious Materials 💻
  • Lightweight composite materials made of paper sludge and corn starch 📄
  • A Study on the Microstructure and Mechanical Properties of Portland Cement Incorporating Aluminosilicate Waste 🔍
  • Influence of Industrial Waste Pozzolanic Additives on the Structure and Properties of Expanded Glass Granules Cement-Based Composite 🏗️
  • The Metakaolin Waste Effect on the Physical and Mechanical Properties of High-Performance Concrete ⚙️
  • Effect of Low Oxidation Graphene Oxide on Physical and Mechanical Properties of MCC Type Refractory Castable 🧪
  • Analysis of the Structure and Durability of Refractory Castables Impregnated with Sodium Silicate Glass 🧱
  • Bio-colonization layered concrete panel for greening vertical surfaces: A field study 🌱

Conclusion

Jurgita Malaiškienė is a deserving candidate for the Best Researcher Award. Her pioneering work in sustainable construction materials, coupled with her robust publication record and collaborative spirit, positions her as a leader in her field. By addressing areas for improvement, such as enhancing her international presence and mentoring, she can continue to advance her research and contribute significantly to the global scientific community. Recognizing her achievements through this award would not only honor her contributions but also inspire others in the field.

Krishnan Ravi – Waste Valorization – Best Researcher Award

Krishnan Ravi - Waste Valorization - Best Researcher Award

Ruhr-Universität Bochum - Germany

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Krishnan Ravi embarked on his academic journey with a Bachelor's degree in Chemistry from Vivekananda College, affiliated with Madurai Kamaraj University. He furthered his education by obtaining a Master's degree in Chemistry, focusing on the selective oxidation of sulfides to sulfoxides using hydrogen peroxide. His academic pursuits laid the foundation for his research interests in chemical sciences.

PROFESSIONAL ENDEAVORS

Ravi's professional journey began with his work as a Project Assistant at CSIR (India), where he contributed to projects focused on catalytic transformations for fine and specialty chemicals. Subsequently, he continued his research as a Project Assistant at BPCL (India), gaining valuable experience in processes for hydroformylation of olefins. His hands-on experience in research laboratories equipped him with the skills necessary for his doctoral studies and beyond.

CONTRIBUTIONS AND RESEARCH FOCUS

Krishnan Ravi's research focuses on waste valorization and energy, particularly in the utilization of carbon-based materials as heterogeneous catalysts for biomass valorization into value-added chemicals and fuels. His work involves developing novel catalysts from renewable resources and exploring their applications in biomass conversion and CO2 utilization. Through his innovative research, Ravi aims to address environmental challenges while contributing to the development of sustainable energy solutions.

IMPACT AND INFLUENCE

Ravi's contributions to the field of waste valorization and energy have been significant, as evidenced by his numerous research articles, review articles, and presentations at national and international conferences. His work has garnered attention from the scientific community and has the potential to influence future research directions in catalysis and renewable energy.

ACADEMIC CITES

Krishnan Ravi's research articles have been published in reputable journals, reflecting the impact of his work on the scientific community. His contributions to the literature on waste valorization and energy underscore his expertise and influence in the field of chemical sciences.

LEGACY AND FUTURE CONTRIBUTIONS

As Ravi continues his academic and professional journey, his focus on waste valorization and energy will remain central to his research endeavors. Through his interdisciplinary approach and dedication to excellence, he aims to advance knowledge in catalysis and renewable energy, paving the way for a more sustainable future. His legacy will be defined by his contributions to addressing global environmental challenges and his commitment to scientific innovation.

NOTABLE PUBLICATION

Bio-waste chitosan-derived N-doped CNT-supported Ni nanoparticles for selective hydrogenation of nitroarenes† 2020 (40)

Metal-organic framework derived core-shell nanoparticles as high performance bifunctional electrocatalysts for HER and OER 2023 (28)

Chemoselective isomerization of α-Pinene oxide to trans-Carveol by robust and mild Brønsted acidic zirconium phosphate catalyst 2022 (16)

Surfactant-Assisted Selective Oxidation of Aromatic Amines to Nitro Compounds by in Situ-Formed Performic Acid 2019 (15)

Iridium supported on spinal cubic cobalt oxide catalyst for the selective hydrogenation of CO2 to formic acid 2023 (9)