Assoc. Prof. Dr. Luyi Chen – green innovation adoption – Best Researcher Award

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Assoc. Prof. Dr. Luyi Chen - green innovation adoption - Best Researcher Award

Shanghai Research Center for Reform and Development of State-owned Assets and State-owned Enterprises - China 

Author Profile 

SCOPUS 

🎓 Early academic pursuits

Luyi Chen embarked on an academic journey with a deep commitment to sustainable development and industrial innovation. with a strong foundation in engineering and economic policies, he pursued research that bridged the gap between manufacturing and environmental sustainability. his early academic years were marked by a keen interest in green technologies and policy frameworks that drive sustainable industrial practices. his dedication to exploring innovative methods for reducing environmental impact laid the groundwork for his future contributions in the field of green manufacturing and industrial transformation.

🚀 Professional endeavors

As an associate researcher at the shanghai research center for reform and development of state-owned assets and state-owned enterprises, luyi chen has played a crucial role in shaping policies related to industrial development and sustainability. over the past five years, he has successfully led six major research projects, including the prestigious national natural science foundation of china programs. his work has contributed significantly to policy recommendations and innovative strategies for state-owned enterprises, driving forward china’s industrial modernization. his role as an editorial board member for the special issue of china engineering science and his involvement as a reviewer for top international journals reflect his influence in the field.

🧐 Contributions and research focus

Luyi Chen’s research is centered around green manufacturing, industrial policy, and innovation. his expertise in developing sustainable industrial solutions has led to the publication of over thirty research outputs, including high-impact journal articles and book chapters. his monograph, "transition and innovation of chinese manufacturing: practice and policy," stands as a green innovation adoption significant contribution to understanding the evolution of china’s industrial landscape. his research emphasizes the integration of cutting-edge technologies in industrial systems to enhance efficiency while minimizing environmental harm. through his work, he has successfully developed frameworks that facilitate the transition towards sustainable manufacturing.

🏆 Accolades and recognition

With a growing impact in academia, luyi chen has earned recognition for his research contributions. his citation index of 11 reflects the scholarly influence of his work, particularly in green innovation and industrial transformation. his appointment as an editorial board member and his role as a reviewer for prestigious journals such as the journal of cleaner production and green innovation adoption environmental innovation and societal transitions highlight his standing in the global research community. his work has received acknowledgment not only from academia but also from policymakers and industrial leaders striving for a sustainable future.

👨‍🎓 Impact and influence

Chen’s influence extends beyond academia into the industrial sector, where his research findings have informed policy decisions and practical implementations. his consultancy projects have facilitated industry-wide transitions towards environmentally friendly manufacturing processes. his innovative patents, including water-free and salt-free dyeing methods, have provided green innovation adoption sustainable solutions to the textile industry, reducing waste and environmental pollution. his work has played a key role in shaping industrial policies that support green technologies, ensuring a balance between economic growth and environmental responsibility.

🌍 Legacy and future contributions

As a leading researcher in green manufacturing and industrial development, luyi chen’s contributions continue to pave the way for sustainable industrial transformations. his future research aims to further explore policy innovations and technological advancements that can drive the next phase of industrial sustainability. by mentoring young researchers and fostering collaborations between academia, industry, and policymakers, he is building a legacy of innovation and environmental responsibility. his work will continue to influence the global discourse on sustainable industrial practices, leaving a lasting impact on future generations of researchers and industry leaders.

Notable Publications 

Title: Review of Antifouling Finishing of Textiles: Theme, Evolution and Fabrication Methods
Author(s): Fengmei Ding, Yali Guo, Qingmiao Wang, Zhiqi Xing, Luyi Chen
Journal: Journal of Donghua University (English Edition), 2024

Dr. Luca Socci – Energy and Environmental Engineering – Best Researcher Award

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Dr. Luca Socci - Energy and Environmental Engineering - Best Researcher Award

University of Florence - Department of Industrial Engineering - Italy

Author Profile 

SCOPUS 

ORCID 

🌍 Early academic pursuits

Luca Socci  in florence, italy. his academic journey began with a deep passion for environmental engineering, leading him to pursue higher education at the university of florence. he completed his bachelor's degree in environmental engineering with honors, demonstrating early excellence in thermodynamics and heat transfer. his thesis focused on calibrating instruments for temperature monitoring in an ejector refrigeration cycle prototype, laying the foundation for his expertise in energy-efficient cooling systems. his outstanding academic performance continued into his master’s degree, where he graduated with top honors, further refining his research on efficient data center cooling solutions.

💡 Professional endeavors

As a funded researcher at the thermo group – department of industrial engineering (dief) at the university of florence, luca has been at the forefront of advancing thermodynamics and heat transfer applications. he transitioned seamlessly from academia to research, first as a doctoral student and later as a funded researcher. his work has been instrumental in optimizing hvac systems, particularly in desiccant devices and evaporative cooling technologies. he has actively contributed to educational programs, mentoring students and supporting courses in applied thermodynamics, energy efficiency, and hvac systems for industrial and civil applications.

🌐 Contributions and research focus

Luca’s research has significantly contributed to the understanding and enhancement of heat and mass transfer processes, focusing on sustainable energy solutions. his studies encompass Energy and Environmental Engineering hvac energy optimization, air disinfection methods, building energy efficiency, and the environmental impact of energy systems. he has made notable advances in humidification-dehumidification desalination systems, integrating innovative cooling technologies to boost performance. his numerical simulations and optimization models have provided new insights into efficient hvac equipment design, ensuring improved indoor air quality and energy sustainability.

🌟 Accolades and recognition

Luca’s academic excellence has been evident since his early years, earning him top honors in both his bachelor's and master’s degrees. his research work has been recognized through funding awards, allowing him to further explore groundbreaking developments in thermodynamics. his dedication to education and research has made him a valued member of the university of Energy and Environmental Engineering florence’s scientific community, where he has co-supervised multiple bachelor’s and master’s theses, shaping the next generation of energy engineers.

💪 Impact and influence

Through his innovative research, luca has played a crucial role in advancing sustainable hvac technologies, leading to practical applications that reduce energy consumption and enhance Energy and Environmental Engineering indoor air quality. his contributions to numerical simulations have influenced the design of more efficient cooling and ventilation systems, particularly in data centers, where energy efficiency is paramount. his collaborative efforts with students and researchers have fostered a culture of knowledge-sharing and scientific curiosity in the field of thermodynamics.

🏆 Legacy and future contributions

With a strong foundation in environmental engineering and thermodynamics, luca’s research continues to shape the future of energy-efficient technologies. his ongoing projects in hvac system optimization and desalination systems energy efficiency promise to deliver impactful advancements in the field. as he progresses in his career, his commitment to sustainable energy solutions and innovative research methodologies will leave a lasting legacy, ensuring that his work benefits both academia and industry for years to come.

Notable Publications 

  • Title: Desiccant thermally controlled dehumidification in HVAC systems: Energy and exergy analysis, evaluation of different materials
    Author(s): Luca Socci, Andrea Rocchetti, Martina Lippi, Federica Savelli, Antonio Verzino, Andrea Zini, Lorenzo Talluri, Giampaolo Manfrida, Lorenzo Ciappi
    Journal: Journal of Building Engineering

  • Title: Scenarios for the energy renovation of a residential building
    Author(s): Guglielmo Malevolti, Andrea Rocchetti, Luca Socci
    Journal: E3S Web of Conferences

  • Title: Ceramic Air-to-Air Recuperator for energy recovery in HVAC systems: CFD analysis and comparison with experimental tests
    Author(s): Luca Socci, Javier M. Rey-Hernandez, Andrea Rocchetti, Alberto Rey-Hernandez, Francisco J. Rey-Martínez
    Journal: Sustainable Energy Technologies and Assessments

  • Title: Enhancing third-generation district heating networks with data centre waste heat recovery: analysis of a case study in Italy
    Author(s): Luca Socci, Andrea Rocchetti, Antonio Verzino, Andrea Zini, Lorenzo Talluri
    Journal: Energy

  • Title: Exploiting the Ocean Thermal Energy Conversion (OTEC) technology for green hydrogen production and storage: Exergo-economic analysis
    Author(s): Lorenzo Ciappi, Luca Socci, Mattia Calabrese, Chiara Di Francesco, Federica Savelli, Giampaolo Manfrida, Andrea Rocchetti, Lorenzo Talluri, Daniele Fiaschi
    Journal: International Journal of Hydrogen Energy

Mr. Alioune Nacro –  Engineering  –  Best Researcher Award

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Mr. Alioune Nacro -  Engineering  -  Best Researcher Award

Laboratoire de mathématiques Nicolas Oresme - France 

Author Profile

ORCID 

🎓 Early academic pursuits

Alioune Nacro embarked on his academic journey with a strong foundation in engineering and mechanics. he pursued a diplôme universitaire de technologie (dut) in génie industriel at sn-citec, where he gained hands-on experience in industrial processes and maintenance. building on this, he advanced to a licence 2 in génie électrique et informatique industrielle (geii) at the institut des sciences et techniques de valenciennes. his thirst for knowledge led him to the prestigious esix at the université de caen, where he completed his diplôme d’ingénieur in mécatronique. his academic path was further enriched with a master’s degree in mécanique at the université de caen, ultimately progressing to doctoral studies in mécanique des solides, génie mécanique, productique, transport et génie civil.

🌟 Professional endeavors

Alioune Nacro has built an impressive career through a series of impactful internships and research positions. he gained industrial experience at décathlon cagny, where he managed stock and logistics. later, at global technology, he contributed to the design and implementation of photovoltaic cells on drones, optimizing their energy autonomy. at dracula technologies, he integrated energy harvesting into connected objects and developed innovative electronic systems. his most recent internship at laboratoire nicolas oresme focused on the modeling of raw bricks reinforced with natural fibers, utilizing finite element analysis and fast fourier transform methods.

🧠 Contributions and research focus

Alioune’s research is centered on mechanics, material sciences, and renewable energy solutions. his doctoral work delves into the multiscale fe2 elastoviscoplastic analysis of composite structures, a theoretical and computational study that enhances the understanding of material behavior under different conditions. his expertise extends to numerical simulations, Engineering computational fluid dynamics (cfd), and fluid-structure interaction calculations, employing advanced software such as castem, code aster, and openfoam. his contributions in energy harvesting, particularly the autonomous lighting system powered by renewable energy, highlight his commitment to sustainable technology.

🏆 Accolades and recognition

Alioune’s academic and professional journey has been marked by significant achievements. his innovative research in material science and renewable energy has garnered attention within Engineering academic circles. his hands-on contributions to energy-efficient technologies and advanced modeling techniques have positioned him as a rising researcher in mechanical engineering and  applied physics. his ability to bridge theoretical research with practical applications has been recognized by industry professionals and academic mentors alike.

💪 Impact and influence

Alioune’s work has had a profound impact on both the academic and industrial sectors. his research in composite material analysis provides valuable insights for structural engineers and Engineering material scientists. his contributions to energy harvesting and autonomous systems play a crucial role in the development of smart and self-sufficient technologies. through his various projects, he has influenced the integration of renewable energy solutions into real-world applications, setting a precedent for sustainable innovation.

🔬 Legacy and future contributions

As a dedicated researcher, alioune nacro is poised to leave a lasting legacy in the fields of mechanical engineering and renewable energy. his work in numerical simulations and composite material analysis continues to shape future advancements in material science and structural engineering. with his expertise in energy harvesting and smart technology integration, he is expected to contribute to groundbreaking solutions that enhance energy efficiency and sustainability. his future endeavors in academia and industry will likely inspire the next generation of engineers and researchers in these dynamic fields.

Notable Publications 

Title: Experimental and modeling study on earthen sediment-based bricks with and without flax fibers: a finite element analysis
Author(s): Alioune Nacro, Daniel Levacher, Mazhar Hussain
Journal: Results in Engineering, 2025

Mr. Zeeshan khan – Plant Biotechnology – Best Researcher Award

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Mr. Zeeshan khan - Plant Biotechnology - Best Researcher Award

National University of Sciences and Technology Islamabad - Pakistan

Author Profile

ORCID 

🌱 Early academic pursuits

Zeeshan khan embarked on his academic journey with a strong foundation in biotechnology, earning a bs in biotechnology from the international islamic university (iiui), islamabad, pakistan, in 2018. his undergraduate thesis focused on the in-vitro propagation and conservation of the medicinal plant stevia rebaudiana, showcasing his early interest in combining scientific innovation with sustainable practices. zeeshan further honed his expertise by pursuing an ms in plant biotechnology at the national university of sciences and technology (nust), where he conducted epidemiological studies of begomoviruses in the south asian region, graduating in 2020. currently, he is advancing his academic pursuits as a phd candidate in applied biosciences at nust, focusing on investigating the role of eco-friendly microbes in combating microplastic stress in agro-ecosystems.

🔬 Professional endeavors

Zeeshan’s career has been marked by his dedication to research and innovation. he began his professional journey as a research associate at the national agricultural research centre (narc), islamabad, from june 2017 to august 2018. here, he gained valuable experience in agricultural biotechnology and plant sciences. later, in 2021, he joined razbio.co.uk as a research associate at the department of plant biotechnology, atta-ur-rahman school of applied biosciences (asab), nust. these roles allowed him to contribute to cutting-edge research while refining his expertise in plant biotechnology and microbial applications.

🧬 Contributions and research focus

Zeeshan’s research contributions focus on addressing environmental and agricultural challenges through innovative scientific approaches. during his phd, he has been exploring the role of eco-friendly microbes in mitigating microplastic stress in agro-ecosystems, a critical issue in sustainable agriculture. his prior research has included the epidemiological studies of Plant Biotechnology begomoviruses, providing insights into plant viral diseases in south asia, and developing in-vitro propagation techniques for medicinal plants. equipped with skills in microbiology, molecular biology, and bioinformatics, zeeshan’s work bridges the gap between biotechnology and environmental sustainability.

🏆 Accolades and recognition

Zeeshan’s dedication to excellence has earned him recognition as a promising researcher. his active contributions to the field are highlighted by his scholarly publications and his participation Plant Biotechnology in innovative research projects. he maintains an active google scholar profile, reflecting his impact in the academic community. his achievements also include working on high-impact research projects at prestigious institutions like nust and narc, underscoring his capabilities as a researcher.

🌍 Impact and influence

Zeeshan’s research holds significant implications for global sustainability and agriculture. by addressing the pressing issue of microplastic pollution in agro-ecosystems, his work provides Plant Biotechnology valuable solutions for improving soil health and crop productivity. his efforts in studying plant viruses and conservation techniques also contribute to enhancing food security and biodiversity conservation. zeeshan’s interdisciplinary expertise and innovative approaches have made a lasting impact in the fields of plant biotechnology and applied biosciences.

✨ Legacy and future contributions

Zeeshan khan is poised to leave a lasting legacy in environmental biotechnology and sustainable agriculture. as a skilled researcher, he envisions contributing to groundbreaking advancements in eco-friendly agricultural practices and microbial biotechnology. his commitment to addressing global challenges such as microplastic pollution and plant health reflects his determination to shape a sustainable future. zeeshan’s ongoing research and future endeavors are set to inspire the next generation of scientists in his field.

Notable Publications

  • Title: Mycorrhizosphere bacteria alleviated arsenic toxicity by regulating organic acids, glyoxalase defense system, and metal transporters in soybean plants
    Authors: Zeeshan Khan, Shahrukh Khan, Mansour I. Almansour, Muhammad Asad, Mohammad Javed Ansari, Hamad Khan, Ijaz Ahmad
    Journal: South African Journal of Botany
  • Title: Mitigation of microplastic toxicity in soybean by synthetic bacterial community and arbuscular mycorrhizal fungi interaction: Altering carbohydrate metabolism, hormonal transduction, and genes associated with lipid and protein metabolism
    Authors: Muhammad Asad, Zeeshan Khan, Tariq Shah, Muhammad Abdullah Shah, Ayesha Imran, Salman Rasool, Jabar Zaman Khan Khattak, Shah Rukh Khan, Ajaz Ahmad, Parvaiz Ahmad
    Journal: Plant Stress
  • Title: Nanoplastics negatively affect nitrogen assimilation and metabolism in soybean roots more than in nodules
    Authors: Tariq Shah, Zeeshan Khan, Zainullah Bacha, Zahwa Zaffar, Fazal Munsif, Ajaz Ahmad, Parvaiz Ahmad
    Journal: Scientia Horticulturae
  • Title: Agro-biofortification of maize with selenium for higher grain selenium contents and productivity
    Authors: Tariq Shah, Tahani Awad Alahmadi, Mohammad Javed Ansari, Zeeshan Khan, Hamad Khan
    Journal: South African Journal of Botany
  • Title: Mycorrhizosphere bacteria inhibit greenhouse gas emissions from microplastics contaminated soil by regulating soil enzyme activities and microbial community structure
    Authors: Zeeshan Khan, Tariq Shah, Ghulam Haider, Fazal Adnan, Zeshan Sheikh, Mohamed A. El-Sheikh, Muhammad Faraz Bhatti, Parvaiz Ahmad
    Journal: Journal of Environmental Management

Dr. Udeme john Dickson – Environmental Chemistry and Environmental remediation – Excellence in Scientific Innovation Award

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Dr. Udeme john Dickson - Environmental Chemistry and Environmental remediation - Excellence in Scientific Innovation Award

Independent Researcher - United Kingdom

Author Profile

ORCID

🌟 Early academic pursuits

Dr. Udeme john Dickson began his academic journey with a deep passion for environmental chemistry and analytical sciences. earning a bachelor’s degree in environmental chemistry from the university of uyo, nigeria, in 2006, he showcased an early commitment to addressing environmental challenges. he further refined his expertise with a master’s degree in environmental chemistry from the university of benin in 2012, before pursuing a phd in analytical chemistry and environmental science at nottingham trent university, united kingdom, in 2020. his doctoral research focused on developing analytical and remediation techniques to manage contaminated soils, laying a strong foundation for his career in environmental sciences.

🌍 Professional endeavors

Dr. Dickson’s professional career reflects his dedication to environmental geoscience and teaching. he served as a lecturer at university college london (ucl), where he contributed significantly to various modules, including environmental geochemistry, gis and remote sensing, and geological mapping. his role extended beyond teaching, encompassing module design, practical session curation, and student mentorship. his tenure as an external examiner at nanjing university of information science & technology further underscored his influence on the global academic stage. he has also held roles in environmental consultancy and industrial sectors, enriching his practical understanding of environmental challenges.

🔬 Contributions and research focus

A prolific researcher, dr. dickson's work spans critical areas in environmental earth sciences and geosciences. his research encompasses environmental geochemistry, pollution mapping, and the development of innovative techniques for monitoring and remediating polluted environments. his expertise in analyzing and treating Environmental Chemistry and Environmental remediation pollutants such as petroleum hydrocarbons, microplastics, and trace metals reflects his commitment to sustainable environmental management. additionally, his contributions to climate change studies, ecosystem services, and biodiversity modeling demonstrate a multidisciplinary approach to addressing environmental challenges.

🏅 Accolades and recognition

Dr. Dickson’s academic and professional excellence is recognized through memberships in esteemed organizations such as the geological society of london, the royal society of chemistry, and the british ecological society. he is also a fellow of the higher education academy (fhea), reflecting his dedication to teaching and mentorship. Environmental Chemistry and Environmental remediation his work has garnered respect and recognition, positioning him as a thought leader in environmental sciences.

🌟 Impact and influence

Dr. Dickson has had a profound impact on both academic and professional communities. as a lecturer, he has mentored students, supervised postgraduate Environmental Chemistry and Environmental remediation dissertations, and participated in outreach programs to inspire future scientists. his research findings have contributed to the advancement of knowledge in environmental geoscience, offering practical solutions to pressing environmental issues. his efforts in module development and academic support at ucl have set a high standard for teaching and curriculum design.

🌱 Legacy and future contributions

Dr. Dickson’s legacy is one of innovation, mentorship, and dedication to environmental sustainability. his work in developing advanced remediation techniques and fostering interdisciplinary research has paved the way for future breakthroughs in environmental science. as he continues to contribute to academia and research, his commitment to addressing global environmental challenges ensures his enduring impact on the field.

Notable Publications 

Title: Mycoremediation of petroleum contaminated soils: progress, prospects and perspectives
Authors: Udeme John Dickson, Michael Coffey, Robert John George Mortimer, Marcello Di Bonito, Nicholas Ray
Journal: Environmental Science: Processes & Impacts

Mr. Zammil Hameed – Environmental Engineering – Young Scientist Award

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Mr. Zammil Hameed - Environmental Engineering - Young Scientist Award

Joint Research and Demonstration Center - Sri Lanka

Author Profile

ORCID 

🌱 Early academic pursuits

S.H.M. Zammil's academic journey began with remarkable success during his school years at madeena national school, sri lanka. excelling in mathematics and science, he earned stellar grades, including multiple distinctions in his ordinary level examination. his aptitude for engineering was evident early on as he ranked seventh in the matale district during his advanced level examination. this academic excellence paved the way for him to pursue a b.sc. in civil engineering at the prestigious university of peradeniya, where his directed research focused on investigating slope failures caused by torrential rainfall at mt. hantana.

🏗️ Professional endeavors

Zammil has built a diverse career as an engineer and researcher. his initial roles as a trainee and site engineer honed his expertise in infrastructure development, including road rehabilitation and water treatment plant construction. from 2019 to 2023, he served as a civil engineer for the joint research and development center for water technology under the ministry of water supply. currently, as a research engineer at the same center, he contributes to cutting-edge projects in water resource management and technology development.

💡 Contributions and research focus

Zammil's research journey reflects his deep commitment to water and environmental sustainability. during his master's studies, he developed a performance simulation model for a submerged membrane bioreactor (smbr) system, showcasing his technical prowess in wastewater treatment and integrated model Environmental Engineering development. his work on slope stability during his undergraduate years also highlights his focus on addressing critical environmental challenges. his professional roles have allowed him to apply these research insights to practical engineering problems, improving water supply systems and infrastructure resilience.

🏆 Accolades and recognition

Zammil's academic and professional achievements have earned him recognition in multiple domains. his high rankings in advanced-level examinations and his Environmental Engineering consistent academic performance underscore his dedication to learning. his work on innovative water treatment systems and environmental engineering has further established his reputation as a skilled engineer and researcher.

🌍 Impact and influence

through his roles in sri lanka's ministry of water supply, zammil has contributed to critical projects that address water scarcity and infrastructure challenges. his Environmental Engineering research on smbr systems and slope failures has practical implications, benefiting both urban and rural communities by enhancing water treatment technologies and preventing natural disasters. his influence extends to mentoring and collaborating with peers, fostering a culture of innovation in the engineering field.

🛠️ Legacy and future contributions

Zammil envisions a future where sustainable water management and resilient infrastructure play pivotal roles in societal development. as he continues his career in research and engineering, he aims to advance technological solutions for water and environmental challenges, ensuring a lasting positive impact on sri lanka's development and beyond. his dedication to integrating academic insights with practical applications sets a benchmark for upcoming engineers and researchers.

Notable Publications

Title: Advancing Sustainability: The Impact of Emerging Technologies in Agriculture
Authors: Ashoka Gamage, Ruchira Gangahagedara, Shyamantha Subasinghe, Jeewan Gamage, Chamini Guruge, Sera Senaratne, Thevin Randika, Chamila Rathnayake, Zammil Hameed, Terrence Madhujith, et al.
Journal: Current Plant Biology (2024).

Dr. Kashinath Lellala – Energy and environmental applications – Best Innovation Award

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Dr. Kashinath Lellala - Energy and environmental applications - Best Innovation Award

Xavier University of Louisiana - United States

AUTHOR PROFILE 

SCOPUS 

EARLY ACADEMIC PURSUITS 🎓

Kashinath Lellala’s academic journey began with his M.Sc. in Physics from Kakatiya University, Warangal, Telangana, India, in 2007, where he specialized in electronics. Following this, he pursued an M. Phil. in Physics from Alagappa University, India, in 2013, focusing on thin films and nanotechnology. His research on graphene, particularly in the synthesis and characterization of single-layered graphene by chemical exfoliation, laid the foundation for his future work in nanomaterials. He earned his Ph.D. in Materials Science from the University of Mysore, India, in 2018, under the guidance of Professor K. Byrappa. His doctoral thesis focused on the fabrication and processing of hybrid metal oxide/metal sulfide-graphene oxide nanocomposites and their potential applications in energy and environmental sectors.

PROFESSIONAL ENDEAVORS 💼

Dr. Lellala has accumulated significant professional experience in both research and teaching. With over 12 years of teaching experience and 9 years of research experience, he has collaborated with various academic and industrial teams to develop advanced materials for energy and environmental applications. His work has encompassed the design and synthesis of efficient catalysts, heterojunction materials for fuel cells, and anode/cathode materials for batteries. He has been a postdoctoral fellow at prestigious institutions, including Lulea University of Technology and the University of South Australia, where he furthered his research in nanomaterials. Currently, he holds multiple editorial board memberships for international journals, showcasing his commitment to the academic community.

CONTRIBUTIONS AND RESEARCH FOCUS 🔬

Dr. Lellala’s research contributions focus on developing advanced functional materials, particularly for energy and environmental applications. His work involves the fabrication of hybrid nanocomposites, combining metal oxides and metal sulfides with graphene oxide, to improve efficiency in various catalytic processes, including photo/electro catalysis, fuel cell reactions, and hydrogen evolution. His research into heterojunction materials for water splitting and energy storage devices, such as Energy and environmental applications batteries, aims to enhance the performance and sustainability of clean energy systems. Through computational work and experimental synthesis, he continues to push the boundaries of materials science in the context of renewable energy.

ACCOLADES AND RECOGNITION 🏆

Dr. Lellala has been recognized for his contributions to materials science and interdisciplinary research. He was awarded the EMINET Educator Award-2020 by the Forum of Interdisciplinary Research in Mathematical Sciences, India, for his exceptional teaching contributions. In 2020, he received a Certificate of Appreciation for his valuable contributions as a reviewer for the Journal of Cleaner Production. Furthermore, he was honored with the prestigious Caryl Trigger Research Foundation Energy and environmental applications Postdoctoral Fellowship at Lulea University of Technology, Sweden. These accolades highlight his excellence in both research and teaching within his field.

IMPACT AND INFLUENCE 🌍

Dr. Lellala’s work has had a significant impact on the field of materials science, particularly in the development of nanomaterials for clean energy applications. His contributions to the fabrication of hybrid nanocomposites have led to advancements in energy storage and conversion technologies. By advancing the understanding of heterojunction materials and catalysts, his research is contributing to the reduction of energy consumption and the improvement of sustainable technologies. His Energy and environmental applications work is influencing the scientific community’s approach to energy materials, particularly in the context of environmental sustainability.

LEGACY AND FUTURE CONTRIBUTIONS 🌟

Looking ahead, Dr. Lellala aims to continue his research on advanced materials for energy applications, particularly in the areas of hydrogen storage, fuel cells, and battery technologies. His work in the integration of nanomaterials for efficient catalytic processes and energy storage devices positions him at the forefront of clean energy solutions. By advancing the scalability and commercial viability of these materials, Dr. Lellala hopes to contribute to the development of sustainable energy solutions that can have a lasting positive impact on global energy systems. His future contributions will likely shape the next generation of energy materials and their applications, advancing both scientific and technological progress in the field.

NOTABLE PUBLICATIONS 

  • Title: Ceria Boosting on In Situ Nitrogen-Doped Graphene Oxide for Efficient Bifunctional ORR/OER Activity
    Authors: Kashinath, L., Byrappa, K.
    Journal: Frontiers in Chemistry, 2022, 10, 889579
  • Title: One-pot microwave synthesis of SnSe and Lanthanum doped SnSe nanostructure with direct Z scheme pattern for excellent photodegradation of organic pollutants
    Authors: Govindan, V., Kashinath, L., Geetha, G.V., Ramasamy, P., Sankaranarayanan, K.
    Journal: Ceramics International, 2022, 48(9), pp. 12228–12239
  • Title: Electrochemical deposition of Si nano-spheres from water contaminated ionic liquid at room temperature: Structural evolution and growth mechanism
    Authors: Vanpariya, A., Lellala, K., Bhagat, D., Mukhopadhyay, I.
    Journal: Journal of Electroanalytical Chemistry, 2022, 910, 116175
  • Title: Sulfur embedded on in-situ carbon nanodisc decorated on graphene sheets for efficient photocatalytic activity and capacitive deionization method for heavy metal removal
    Authors: Lellala, K.
    Journal: Journal of Materials Research and Technology, 2021, 13, pp. 1555–1566
  • Title: Microwave-Assisted Facile Hydrothermal Synthesis of Fe3O4-GO Nanocomposites for the Efficient Bifunctional Electrocatalytic Activity of OER/ORR
    Authors: Lellala, K.
    Journal: Energy and Fuels, 2021, 35(9), pp. 8263–8274

Mr. Shitao Quan – Environmental economics – Best Researcher Award

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Mr. Shitao Quan - Environmental economics - Best Researcher Award

Yunnan university of Finance and Economic - China

Author Profile

ORCID

Early academic pursuits 📚

Shitao Quan’s academic journey began with a strong foundation in mathematics, earning an undergraduate degree in mathematics and applied mathematics. building upon this, he pursued a master's degree in statistics, where his interest in data-driven solutions to environmental and financial issues took root. currently, he is advancing his academic career as a phd candidate in public finance at yunnan university of finance and economics, focusing on environmental sustainability and governance.

Professional endeavors 🏢

Throughout his academic career, shitao has demonstrated a commitment to research and leadership. during his master's and phd studies, he authored multiple publications, including one jcr q1 article published in an international english journal, as well as three articles in prominent chinese journals. in addition to his research, shitao led two significant projects, showcasing his ability to apply academic insights to real-world challenges in finance and environmental governance.

Contributions and research focus 🌍

Shitao’s research primarily focuses on the intersection of public finance and environmental sustainability. his work aims to provide insights into sustainable governance practices, with a special emphasis on the financial mechanisms that support ecological preservation and resource management. his interdisciplinary Environmental economics approach, combining mathematical precision with environmental concerns, reflects a deep commitment to tackling the global challenge of sustainability through public finance.

Accolades and recognition 🏅

Shitao’s contributions have not gone unnoticed. his publication in a jcr q1 journal is a significant achievement, marking his influence in the field of environmental Environmental economics finance. his research has been well-received both in china and internationally, reflecting the broad relevance of his work. the successful leadership of two research projects further demonstrates his capability and promise as a researcher in the academic community.

Impact and influence 🌱

Shitao's research has a growing impact on both academia and policy development. by focusing on environmental sustainability within the realm of public finance, his Environmental economics work contributes to the creation of more sustainable economic models. his studies offer valuable insights for policymakers aiming to balance economic development with ecological preservation, making his work critical in addressing global environmental challenges.

Legacy and future contributions 🔮

As a rising scholar in the field of public finance, shitao quan’s legacy is just beginning. his contributions to sustainable governance and finance are paving the way for future innovations in the field. with his ongoing research and dedication to environmental finance, he is positioned to influence both academic thought and practical policy in the years to come, leaving a lasting mark on the pursuit of sustainability.

Notable Publications

Joint prevention and control, cross-regional governance: an evolutionary game analysis of fiscal 2024

Assoc Prof Dr.  Yu-nan Chen – Thermochemical conversion of biomass and organic solid waste – Best Researcher Award

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Assoc Prof Dr.  Yu-nan Chen - Thermochemical conversion of biomass and organic solid waste - Best Researcher Award

Xi'an Jiaotong University - China

Author Profile 

SCOPUS 

ORCID 

Early academic pursuits 🎓

Yu-nan Chen's journey in the field of energy and chemical engineering began with his passion for understanding complex chemical reactions. he pursued his education with a focus on chemical processes in extreme conditions, leading him to specialize in the area of supercritical water gasification. his academic foundation was further strengthened by advanced studies at xi’an jiaotong university, where he honed his skills in chemical reaction mechanisms and supercritical fluids.

Professional endeavors 🏛️

currently an associate professor at the state key laboratory of multiphase flow in power engineering at xi’an jiaotong university, yu-nan chen plays a pivotal role in advancing research on energy conversion processes. his professional career is centered around the exploration of coal, biomass, and organic waste gasification, focusing on the utilization of supercritical water. through his leadership in national research projects, chen has positioned himself as a key figure in the field of sustainable energy and resource utilization.

contributions and research focus 🌱

Yu-nan Chen’s research focuses on the supercritical water gasification process, exploring the chemical reaction mechanisms involved. using advanced computational techniques such as density functional theory, he has uncovered the microscopic reaction dynamics of supercritical water, hydrogen, and free radicals. his innovative Thermochemical conversion of biomass and organic solid waste work has contributed significantly to the understanding of how these elements interact during the gasification of coal and biomass, paving the way for more efficient and sustainable energy solutions.

Accolades and recognition 🏅

Yu-nan Chen’s contributions to the field are recognized through his extensive publication record, with over 30 original papers in leading scientific journals. he has also been awarded 11 patents, a testament to the practical application of his research. as a leader in national research initiatives, chen's work has received widespread Thermochemical conversion of biomass and organic solid waste recognition within the scientific community, solidifying his status as an influential figure in chemical engineering and energy research.

Impact and influence 🌍

The impact of yu-nan chen’s research extends beyond academia. his work on supercritical water gasification has practical implications for energy resource management, offering sustainable solutions for the utilization of coal, biomass, and organic waste. by revealing the microscopic reaction mechanisms in these Thermochemical conversion of biomass and organic solid waste processes, his research contributes to the development of cleaner, more efficient energy technologies, influencing both scientific advancements and industrial practices.

Legacy and future contributions 🔮

Yu-nan chen’s legacy lies in his groundbreaking research on supercritical water gasification and his role in promoting sustainable energy utilization. his future work promises to further advance the field, with a continued focus on uncovering deeper insights into the chemical reactions involved in energy conversion processes. chen’s commitment to innovation and sustainability ensures that his research will have lasting influence on both science and society.

Notable Publications

Thermodynamic and environmental analysis of integrated supercritical water gasification 2024(2)

Experiment evaluation and thermodynamic analysis of pulping modification on ordered conversion 2024(1)

Mechanistic insights and catalytic enhancement of phenolic wastewater supercritical water gasification 2024(2)

Alkaline pulping catalyzed ordered conversion of bark in supercritical water 2024(1)

Experimental and molecular dynamics simulation study on solubility characteristics of chloride 2024(5)

Mr. Ajan Meenakshisundaram – Geothermal energy – Best Researcher Award

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Mr. Ajan Meenakshisundaram - Geothermal energy - Best Researcher Award

University of North Dakota - United States

Author Profile 

SCOPUS

Early academic pursuits 🎓

Ajan Meenakshisundaram embarked on his academic journey with a Bachelor of Technology in Mechanical Engineering from Dr. M.G.R Educational and Research Institute in Chennai, where he achieved a CGPA of 7.3/10. His quest for deeper knowledge led him to pursue a Master of Energy Engineering at the University of Genoa in Italy, graduating with a vote of 100/110. Currently, he is furthering his expertise with a Ph.D. in Energy Engineering at the University of North Dakota, where he maintains an impressive GPA of 3.9/4.

Professional endeavors 🌟

Ajan's professional experience reflects a strong commitment to advancing energy engineering. As a Graduate Research Assistant at the University of North Dakota, he is actively involved in a Department of Energy project focusing on hydrogen production from biomass feedstock. His role includes modeling high-temperature shell and tube heat exchangers and analyzing pilot experimental data. Additionally, he has served as a Graduate Teaching Assistant, where he supports the development of lecture materials and tutorials for courses on project dynamics and applied business analysis. His internship at the Energy and Environmental Research Center further enriched his knowledge of the North Dakota energy market.

Contributions and research focus 🔬

Ajan’s research contributions are centered on energy engineering, with a particular focus on hydrogen production and biomass feedstock. His work involves using advanced computational fluid dynamics software to model heat exchangers and assess thermophysical characteristics of Geothermal energy core samples. His research on high-pressure and temperature equipment demonstrates his technical expertise and commitment to addressing complex energy challenges. This work aims to improve the efficiency and sustainability of energy systems, making a significant impact in the field.

Accolades and recognition 🏅

Ajan's academic and professional achievements have been recognized through his involvement in prestigious organizations. He is an active member of the American Association of Energy Engineers (AEE) and the Society of Petroleum Engineers (SPE). His role as the Secretary for the Geothermal energy Student Association of India (SAI) at the University of North Dakota and his volunteer work with the National Entrepreneurship Network (NEN) highlight his leadership and organizational skills. These roles underscore his dedication to both his professional field and community engagement.

Impact and influence 🌍

Ajan’s work in energy engineering has the potential to significantly influence the field, particularly in the areas of hydrogen production and biomass utilization. His innovative approach to modeling and data analysis contributes to the development of more efficient and sustainable Geothermal energy energy systems. By addressing critical energy challenges and providing valuable insights into energy markets, he is helping to shape the future of energy engineering and its applications.

Legacy and future contributions 🔮

Ajan Meenakshisundaram's legacy will be defined by his contributions to energy engineering and his commitment to advancing sustainable energy solutions. His ongoing research and professional endeavors are paving the way for future innovations in the field. As he continues to explore new methodologies and technologies, his work is expected to leave a lasting impact on the energy sector, influencing both academic research and practical applications.

Notable Publications 

A comprehensive analysis of repurposing abandoned oil wells for different energy uses 2024

Current Status, Sizing Methodologies, Optimization Techniques, and Energy Management  2024(2)

Economic, social, and regulatory challenges of green hydrogen production and utilization in the US 2024(21)

Heat Flow Study and Reservoir Characterization Approach of the Red River Formation to Quantify  2023(1)