ISC-CNR, Italy

Stefano Focardi is a distinguished wildlife ecologist with a career dedicated to understanding the complex interactions between animals and their environments. Over the course of his career, he has made significant contributions to wildlife population dynamics, animal behavior, and biodiversity conservation, particularly with a focus on endangered species such as the Italian roe deer. Focardi’s work emphasizes the importance of quantitative models in ecological studies, contributing to a more sophisticated understanding of species conservation. His research has earned him a prominent place within the scientific community, as he has led numerous international collaborations and mentored many young researchers. Focardi’s contributions to the academic and scientific community are evident in his leadership roles in research institutions, as well as his active participation in organizing scientific conferences. His work bridges the gap between theoretical ecological research and practical conservation efforts, making his contributions impactful not only in academia but also in conservation practice. Focardi’s career is a testament to his commitment to wildlife ecology, and his influence continues to shape conservation strategies and policies globally.

Professional Profile

Scopus Profile

Education

Stefano Focardi earned his academic credentials through rigorous training in wildlife ecology and biological sciences. He completed his undergraduate studies at the University of Florence, where he developed an interest in animal behavior and population ecology. He went on to complete his Ph.D. at the same institution, where his doctoral research focused on wildlife population dynamics, specifically regarding ungulates. His academic journey was further enriched by postdoctoral work at several prestigious institutions, where he specialized in advanced ecological modeling and conservation biology. Throughout his education, Focardi developed a strong foundation in quantitative methods, which he would later apply to ecological research. His educational background reflects a commitment to understanding and addressing critical issues in conservation, particularly in regard to endangered species and habitat management. The knowledge and expertise Focardi gained throughout his education provided him with the tools to become a leader in his field, making significant strides in both theoretical and applied ecology. His academic training has been integral to his success as a researcher and educator, shaping his approach to understanding and solving complex ecological problems.

Professional Experience

Stefano Focardi’s professional experience spans over several decades, during which he has held prominent positions in research and academia. He has worked with multiple research institutions and universities across Europe, contributing his expertise in wildlife ecology and population dynamics. Focardi has served as a faculty member at the University of Florence, where he has been involved in teaching and mentoring students in ecology and conservation biology. His leadership extended to administrative roles, where he oversaw research projects and coordinated collaborations with international conservation organizations. Additionally, Focardi has worked as a senior researcher on several high-profile conservation projects, applying his skills in ecological modeling and data analysis to improve wildlife management strategies. His professional experience also includes extensive fieldwork, during which he has studied and monitored endangered species, providing valuable insights into their behavior and population trends. Focardi’s career is marked by his commitment to bridging the gap between academic research and practical conservation efforts, ensuring that his work contributes to real-world solutions in biodiversity conservation.

Research Interests

Stefano Focardi’s research interests center on wildlife population dynamics, animal behavior, and biodiversity conservation. He is particularly known for his work on species conservation and the use of quantitative methods, such as capture-recapture models and distance sampling, to better understand animal populations. Focardi’s primary focus has been on ungulate species, including the Italian roe deer, and his research aims to improve conservation strategies for these endangered animals. He is also interested in understanding the ecological processes that drive species behavior and their interaction with environmental changes. His research integrates both theoretical and applied ecology, using mathematical models to predict the impacts of human activity, climate change, and habitat destruction on wildlife populations. Focardi is an advocate for evidence-based conservation, ensuring that ecological models inform decision-making processes in conservation policies. His work in adaptive management, particularly for species in protected areas, has been influential in shaping conservation management practices. Focardi’s research continues to address pressing ecological challenges, and his work remains at the forefront of wildlife conservation science.

Research Skills

Stefano Focardi possesses a wide range of research skills that have been honed throughout his career. He is highly skilled in quantitative modeling, particularly in the use of ecological models to understand population dynamics and animal behavior. His expertise includes capture-recapture methods, distance sampling, and other statistical techniques that are essential for studying wildlife populations in the field. Focardi is also proficient in the use of software tools for data analysis and simulation modeling, such as R and program MARK. In addition to his technical skills, Focardi has extensive experience in fieldwork, where he has designed and conducted wildlife surveys and monitoring programs in diverse ecological settings. His ability to collect and analyze data from both field studies and laboratory experiments has been central to his research. Focardi is also a skilled communicator, with a strong track record of publishing research findings in peer-reviewed journals and presenting at international conferences. His interdisciplinary approach allows him to collaborate effectively with experts from various fields, including conservation biology, mathematics, and environmental science.

Awards and Honors

Throughout his distinguished career, Stefano Focardi has received numerous awards and honors in recognition of his contributions to wildlife ecology and conservation science. His groundbreaking research on wildlife population dynamics has earned him accolades from leading conservation organizations and academic institutions. He has received prestigious grants for his research projects, particularly those focused on the conservation of endangered species in Europe. Focardi’s work has been cited extensively in scientific literature, further underscoring the impact of his research in the field of wildlife ecology. In addition to academic recognition, he has been invited to serve as an editor for major ecological journals, where his expertise is highly valued in shaping the direction of research in conservation biology. His leadership in organizing and leading international conferences on wildlife conservation has also been recognized as a major contribution to the global scientific community. Focardi’s awards reflect his exceptional career and his dedication to advancing scientific knowledge in the service of biodiversity conservation.

Conclusion

Stefano Focardi is a highly accomplished wildlife ecologist whose contributions to the field of biodiversity conservation have been profound and far-reaching. His research, particularly in wildlife population dynamics and the conservation of endangered species, has had a lasting impact on both scientific theory and practical conservation strategies. Focardi’s innovative use of ecological models and his emphasis on adaptive management have made him a leader in his field. He has demonstrated an exceptional ability to bridge the gap between theoretical research and real-world applications, making his work highly relevant to contemporary conservation efforts. His collaborations with international research groups and conservation organizations further amplify the influence of his work, positioning him as a key figure in global wildlife conservation. As an educator, mentor, and leader, Focardi has shaped the careers of many young researchers, ensuring the continued growth of the field. His legacy is one of scientific excellence and a deep commitment to the preservation of biodiversity for future generations. Focardi’s career serves as an exemplary model of how rigorous scientific research can contribute to solving the pressing environmental challenges of our time.

Publications Top Notes

Title: Making the best of a hard job: A response to Nakashima (2022)
Authors: Santini, Giacomo; Abolaffio, Milo; Ossi, Federico; Cagnacci, Francesca; Focardi, Stefano
Year: 2022
Title: On the mean path length invariance property for random walks of animals in open environment
Authors: Tommasi, Federico; Fini, Lorenzo; Focardi, Stefano; Santini, Giacomo; Cavalieri, Stefano
Journal: Scientific Reports
Year: 2022
Citations: 6
Title: Population assessment without individual identification using camera-traps: A comparison of four methods
Authors: Santini, Giacomo; Abolaffio, Milo; Ossi, Federico; Cagnacci, Francesca; Focardi, Stefano
Journal: Basic and Applied Ecology
Year: 2022
Citations: 20
Title: Day versus night use of forest by red and roe deer as determined by Corine Land Cover and Copernicus Tree Cover Density: assessing use of geographic layers in movement ecology
Authors: Salvatori, Marco; de Groeve, Johannes E.; van Loon, E. Emiel; Van De Weghe, Nico; Cagnacci, Francesca
Journal: Landscape Ecology
Year: 2022
Citations: 9
Title: Quantifying the errors in animal contacts recorded by proximity loggers
Authors: Ossi, Federico; Focardi, Stefano; Tolhurst, Bryony Anne; Gaillard, Jean Michel; Cagnacci, Francesca
Journal: Journal of Wildlife Management
Year: 2022
Citations: 2
Title: Mapping out a future for ungulate migrations
Authors: Kauffman, Matthew J.; Cagnacci, Francesca; Chamaillé-Jammes, Simon; Xu, Wenjing; Zuther, Steffen
Journal: Science
Year: 2021
Citations: 84
Title: Effects of pulsed resources on the dynamics of seed consumer populations: a comparative demographic study in wild boar
Authors: Gamelon, Marléne; Touzot, Laura; Baubet, Éric; Veylit, Lara; Sæther, Bernt Erik
Journal: Ecosphere
Year: 2021
Citations: 14
Title: Sex differences in condition dependence of natal dispersal in a large herbivore: Dispersal propensity and distance are decoupled
Authors: Hewison, Aidan Jonathan Mark; Gaillard, Jean Michel; Morellet, Nicolas; Börger, Luca; Focardi, Stefano
Journal: Proceedings of the Royal Society B: Biological Sciences
Year: 2021
Citations: 8

Jayashree Swaminathan | Green Hydrogen | Women Researcher Award

Posted on 09/05/202509/05/2025 by ScienceFather

Dr. Jayashree Swaminathan | Green Hydrogen | Women Researcher Award

Scientist from CSIR- National Chemical Laboratory, India

Dr. Jayashree Swaminathan is a highly accomplished scientist specializing in electrochemistry and catalysis, with a strong research focus on green hydrogen generation technologies. Currently serving as a Scientist at the Catalysis Division of the National Chemical Laboratory (NCL), Pune, she has held impactful roles in both academia and industry, including Senior Scientist at Ohmium India Pvt. Ltd. and General Manager at H2e Power Systems Pvt. Ltd. Her work has consistently bridged the gap between fundamental research and industrial application, particularly in areas such as MEA fabrication, water electrolysis, hydrogen fuel generation, and nanomaterial synthesis. With over 200 citations, an h-index of 6, and several high-impact publications, her scientific contributions are significant and growing. She has co-authored a U.S. patent on anion exchange membranes and has been recognized nationally and internationally through fellowships, awards, and internships. Her collaborations include work with eminent scientists like Dr. Pulickel Ajayan and Dr. Sampath. In addition to research, Dr. Swaminathan is actively involved in peer reviewing for high-impact journals. Her expertise spans catalysis, defect engineering, spectroscopy, and nanomaterials, making her a valuable contributor to the future of sustainable energy technologies.

Professional Profile

Education

Dr. Jayashree Swaminathan holds a Ph.D. in Physical Sciences, specializing in Electro-inorganic Chemicals from the CSIR-Central Electrochemical Research Institute (CECRI), completed between 2013 and 2019. Her doctoral research focused on defect-driven electrochemical and photo-electrochemical water splitting using nanocrystalline titanium dioxide, under the mentorship of Dr. S. Ravichandran. Her thesis emphasized hydrogen fuel applications, contributing a key demonstration of a hydrogen-fueled stove. Prior to her Ph.D., she earned an M.Sc. in Nanoscience from the University of Madras, where she excelled academically with a score of 84% and was honored as a gold medalist for her outstanding performance. Her undergraduate education in Physics, also at the University of Madras, culminated in an impressive 86% score, reflecting her strong foundational knowledge in the physical sciences. Throughout her academic career, Dr. Swaminathan has been the recipient of several prestigious scholarships and fellowships, including the DST-INSPIRE Fellowship and the Madras University Merit Fellowship. Her educational background combines theoretical rigor with hands-on research in electrochemistry, catalysis, and materials science, providing a solid platform for her diverse and impactful scientific career.

Professional Experience

Dr. Swaminathan’s professional trajectory showcases a dynamic blend of academic research and industrial application. Since December 2023, she has served as a Scientist at the Catalysis Division of the National Chemical Laboratory (NCL), Pune, where she focuses on catalyst development and water electrolysis systems for green hydrogen production. Prior to NCL, she held the role of Senior Scientist at Ohmium India Pvt. Ltd., Bangalore, where she led initiatives in MEA fabrication and stack assembly for hydrogen technologies. From July 2022 to March 2023, she was General Manager at H2e Power Systems Pvt. Ltd., where she oversaw the stack manufacturing process and safety systems related to hydrogen fuel. Her research experience includes a Research Associate position at Hindustan Petroleum Corporation Limited (2020–2022), where she contributed to green hydrogen projects, and earlier work at the Indian Institute of Science (IISc), focusing on Langmuir-Blodgett thin film techniques. Her career began with a Project Fellowship at Madras University, followed by a Project Assistant role at CSIR-CECRI, where she contributed to patented research on anion exchange membranes. Her multifaceted experience bridges theoretical insights and real-world innovation in sustainable energy systems.

Research Interests

Dr. Jayashree Swaminathan’s research interests lie at the intersection of catalysis, electrochemistry, and green energy technologies. She has specialized in the design and development of heterogeneous catalysts for electrochemical and photo-electrochemical water splitting aimed at sustainable hydrogen fuel production. Her core focus includes defect engineering in nanomaterials—particularly metal oxides like TiO₂ and Co₃O₄—to enhance their catalytic activity and efficiency. She is also deeply engaged in water electrolyzer technology, including MEA and stack fabrication, in-situ spectroscopy, and hydro-cracking processes. Beyond catalyst synthesis, she is interested in the development of zeolites, defect-rich nanostructures, and substitutional doping to manipulate electronic and structural properties for improved performance. Her interdisciplinary approach incorporates advanced material characterization techniques and real-time electrochemical analysis. Collaborating with leading researchers and institutions such as Rice University and IISc Bangalore, her work contributes to both theoretical understanding and scalable applications in renewable energy. This diverse research portfolio not only addresses global energy challenges but also aligns with India’s national mission for green hydrogen technologies.

Research Skills

Dr. Swaminathan possesses an extensive skill set that encompasses a broad spectrum of electrochemical and materials science techniques. She is adept in synthesizing and characterizing heterogeneous catalysts and nanomaterials, with a focus on defect-rich systems to improve electrocatalytic efficiency. Her technical expertise includes electrochemical characterization methods such as cyclic voltammetry, chronoamperometry, and impedance spectroscopy. She is highly skilled in MEA fabrication and stack assembly for electrolyzer systems, with hands-on experience in the complete water-splitting setup. Dr. Swaminathan also brings deep knowledge in thin film deposition techniques, particularly Langmuir-Blodgett films, and she has applied in-situ spectroscopy methods for real-time catalytic studies. Her strong foundation in physical and analytical chemistry allows her to integrate spectroscopic and microscopic tools—like SEM, XRD, and UV-Vis spectroscopy—for detailed material analysis. She has co-developed a patented anion exchange membrane for electrochemical applications, underscoring her innovation in applied research. In addition, she is a skilled scientific communicator, with multiple high-impact publications and experience in reviewing for top-tier journals. Her ability to work across both laboratory-scale investigations and industrial-scale processes makes her a valuable asset in advancing clean energy technologies.

Awards and Honors

Dr. Jayashree Swaminathan has been recognized with numerous prestigious awards and honors throughout her academic and professional journey. Most recently, she received the ANRF Fellowship (2025), awarded by the Prime Minister’s Early Career Research Grant to support her research initiation at NCL. She was selected as a BASE Intern in 2018, receiving $7,500 from DST & IUSSTF for her top-ranked research proposal and completing an internship at Rice University under Dr. Pulickel Ajayan. During her Ph.D., she held the highly competitive DST-INSPIRE Fellowship from 2013 to 2018 and was also named a HEAM Scholar in 2013 for her innovative hydrogen energy project. She has earned multiple academic distinctions including the Madras University Merit Fellowship and a gold medal in M.Sc. Nanoscience. Additional accolades include awards for oral and poster presentations in national science events and competitions, highlighting her strength in research communication. She has contributed to a U.S. and an Indian patent, demonstrating the practical impact of her work. Furthermore, she serves as a peer reviewer for prestigious journals such as Journal of Materials Chemistry A and PCCP, further validating her authority in the field.

Conclusion

Dr. Jayashree Swaminathan exemplifies the qualities deserving of a Research Excellence Award through her consistent and impactful contributions to green hydrogen technologies and electrochemical catalysis. Her research spans academic excellence, industrial application, and international collaboration, reflecting a deep commitment to scientific innovation and sustainability. With a portfolio that includes a U.S. patent, over 200 citations, and high-impact publications, her work is both novel and practical. Her expertise in MEA fabrication, water electrolyzer development, and defect engineering has real-world relevance, addressing urgent energy challenges. Despite her accomplishments, continued focus on increasing international visibility and expanding collaborative networks could further elevate her profile. Overall, Dr. Swaminathan’s credentials, dedication, and scientific output position her as an outstanding candidate for the Excellence in Research Award, with strong potential to influence future developments in clean energy solutions.

Publications Top Notes

Title: Defect-Rich Metallic Titania (TiO₁.₂₃) — An Efficient Hydrogen Evolution Catalyst for Electrochemical Water Splitting
Authors: J. Swaminathan, R. Subbiah, V. Singaram
Journal: ACS Catalysis, 6 (4), 2222–2229
Year: 2016
Citations: 108
Title: Switchable intrinsic defect chemistry of titania for catalytic applications
Authors: S. Jayashree, M. Ashokkumar
Journal: Catalysts, 8 (12), 601
Year: 2018
Citations: 71
Title: Tuning the Electrocatalytic Activity of Co₃O₄ through Discrete Elemental Doping
Authors: J. Swaminathan, A. B. Puthirath, M. R. Sahoo, S. K. Nayak, G. Costin, R. Vajtai, …
Journal: ACS Applied Materials & Interfaces, 11 (43), 39706–39714
Year: 2019
Citations: 25
Title: Insights into the Electrocatalytic Behavior of Defect-Centered Reduced Titania (TiO₁.₂₃)
Authors: J. Swaminathan, S. Ravichandran
Journal: The Journal of Physical Chemistry C, 122 (3), 1670–1680
Year: 2018
Citations: 18
Title: Pseudobrookite based heterostructures for efficient electrocatalytic hydrogen evolution
Authors: N. Fernando, J. Swaminathan, F. C. R. Hernandez, G. Priyadarshana, …
Journal: Materials Reports: Energy, 1 (2), 100020
Year: 2021
Citations: 11
Title: Asphaltene-derived metal-free carbons for electrocatalytic hydrogen evolution
Authors: J. Swaminathan, S. Enayat, A. Meiyazhagan, F. C. Robles Hernandez, …
Journal: ACS Applied Materials & Interfaces, 11 (31), 27697–27705
Year: 2019
Citations: 11
Title: Substitution of copper atoms into defect-rich molybdenum sulfides and their electrocatalytic activity
Authors: Z. Wang, H. Kannan, T. Su, J. Swaminathan, S. N. Shirodkar, F. C. R. Hernandez, …
Journal: Nanoscale Advances, 3 (6), 1747–1757
Year: 2021
Citations: 10
Title: Probing the defect-driven tunable photo(electro)catalytic water-splitting behavior of pulsed-laser-deposited titania
Authors: J. Swaminathan, S. Ravichandran, P. Palani, M. Mathankumar, …
Journal: Energy & Fuels, 35 (5), 4512–4523
Year: 2021
Citations: 3
Title: Calcium silicate hydrate anion exchange membrane useful for water electrolysis and fuel cells and a process for the preparation thereof
Authors: J. Swaminathan, S. Ravichandran, D. J. Davidson, G. Sozhan, S. Vasudevan, …
Patent: US Patent 10,260,155
Year: 2019
Citations: 1
Title: The emergence of analytical techniques for defects in metal oxide
Author: J. Swaminathan
Book Chapter: Metal Oxide Defects, pp. 27–60
Year: 2023

Teresa Maria Morganti | Environmental Science | Best Researcher Award

Posted on 23/04/202523/04/2025 by ScienceFather

Dr. Teresa Maria Morganti | Environmental Science | Best Researcher Award

Postdoc from Marine Science Institute of Barcelona (ICM), Spain

Dr. Teresa Maria Morganti is a distinguished marine ecologist and biochemist whose research delves into the feeding ecology and metabolism of benthic organisms, particularly marine sponges. Her work emphasizes the pivotal role these organisms play in nutrient and carbon cycling within marine ecosystems. Currently, she is a postdoctoral researcher at the Marine Science Institute of Barcelona (ICM-CSIC), where she evaluates Carbon Dioxide Removal (CDR) options from a natural science perspective, focusing on potential side effects on marine ecosystems. Dr. Morganti’s expertise encompasses ecophysiology, thermal biology, environmental stresses, and energy metabolism. Her interdisciplinary approach combines fieldwork, laboratory experiments, and modeling to understand the complex interactions within marine environments. Her contributions have been instrumental in advancing our knowledge of benthic-pelagic coupling and the ecological functions of sponges in carbon sequestration processes.

Professional Profile

Education

Dr. Morganti’s academic journey began with a focus on natural sciences, leading her to specialize in marine science. She pursued her Ph.D. in Marine Science at the Institut de Ciències del Mar (ICM-CSIC) in Barcelona, Spain, from December 2011 to July 2016, where she concentrated on ecophysiology. Her doctoral research provided insights into the metabolic processes of benthic organisms and their role in marine ecosystems. Prior to her Ph.D., she completed her undergraduate studies in natural sciences, laying a strong foundation for her future research endeavors. Her academic background has equipped her with a comprehensive understanding of marine biology, biochemistry, and ecological modeling, enabling her to contribute significantly to the field of marine science.

Professional Experience

Dr. Morganti has amassed extensive professional experience in marine research institutions across Europe. Since November 2017, she has held a postdoctoral position at the Marine Science Institute of Barcelona (ICM-CSIC), where she investigates the ecological implications of CDR strategies. Additionally, she is affiliated with the Max Planck Institute for Marine Microbiology in Bremen, Germany, as part of the HGF-MPG Joint Research Group for Deep-Sea Ecology and Technology. Her previous roles include serving as a Ph.D. student at the Institut de Ciències del Mar, where she conducted in-depth studies on sponge metabolism and nutrient cycling. Dr. Morganti’s professional trajectory reflects her commitment to understanding and mitigating the impacts of climate change on marine ecosystems through interdisciplinary research and collaboration.

Research Interests

Dr. Morganti’s research interests are centered on the ecophysiology of benthic organisms, with a particular emphasis on marine sponges. She explores how these organisms contribute to energy and nutrient transfer within marine ecosystems, focusing on their role in benthic-pelagic coupling and carbon cycling. Her work investigates the physiological responses of sponges to environmental stresses, such as temperature fluctuations and nutrient availability, to understand their adaptability and resilience. Additionally, Dr. Morganti is involved in assessing the feasibility and ecological consequences of marine-based CDR methods, aiming to inform sustainable climate mitigation strategies. Her research integrates field observations, laboratory experiments, and ecological modeling to provide a holistic understanding of marine ecosystem dynamics.

Research Skills

Dr. Morganti possesses a diverse skill set that encompasses various aspects of marine science. Her expertise includes ecophysiology, thermal biology, environmental stress analysis, and energy metabolism. She is proficient in underwater photography, which she utilizes to document and analyze benthic organisms in their natural habitats. Dr. Morganti is adept at conducting laboratory experiments to assess metabolic rates and physiological responses of marine species. Her skills extend to ecological modeling, allowing her to simulate and predict ecosystem responses to environmental changes. Additionally, she has experience in evaluating CDR processes, contributing to interdisciplinary research on climate change mitigation. Her comprehensive skill set enables her to address complex ecological questions and contribute valuable insights to marine science.

Awards and Honors

While specific awards and honors for Dr. Morganti are not detailed in the available information, her affiliations with prestigious research institutions such as the Marine Science Institute of Barcelona (ICM-CSIC) and the Max Planck Institute for Marine Microbiology underscore her recognition in the scientific community. Her involvement in significant research projects, including assessments of marine CDR methods, reflects her contributions to addressing global environmental challenges. Dr. Morganti’s work has been cited extensively, indicating her influence and impact within the field of marine ecology and biogeochemistry.

Conclusion

Dr. Teresa Maria Morganti’s career exemplifies a profound dedication to understanding the complexities of marine ecosystems and their responses to environmental changes. Through her research on the ecophysiology of benthic organisms and the evaluation of CDR strategies, she contributes to the development of sustainable solutions for climate change mitigation. Her interdisciplinary approach, combining fieldwork, laboratory analysis, and modeling, provides comprehensive insights into the functioning of marine ecosystems. Dr. Morganti’s work not only advances scientific knowledge but also informs policy and conservation efforts aimed at preserving marine biodiversity and ecosystem services. Her ongoing research continues to shed light on the vital roles of benthic organisms in maintaining the health and stability of our oceans.

Publications Top Notes

A community perspective on the concept of marine holobionts: current status, challenges, and future directions
Authors: SM Dittami, E Arboleda, JC Auguet, A Bigalke, E Briand, P Cárdenas, …
Journal: PeerJ
Year: 2021
Citations: 101
Size is the major determinant of pumping rates in marine sponges
Authors: TM Morganti, M Ribes, G Yahel, R Coma
Journal: Frontiers in Physiology
Year: 2019
Citations: 91
Trophic niche separation that facilitates co‐existence of high and low microbial abundance sponges is revealed by in situ study of carbon and nitrogen fluxes
Authors: T Morganti, R Coma, G Yahel, M Ribes
Journal: Limnology and Oceanography
Year: 2017
Citations: 89
Giant sponge grounds of Central Arctic seamounts are associated with extinct seep life
Authors: TM Morganti, BM Slaby, A de Kluijver, K Busch, U Hentschel, …
Journal: Nature Communications
Year: 2022
Citations: 39
Bacterial precursors and unsaturated long-chain fatty acids are biomarkers of North-Atlantic deep-sea demosponges
Authors: A de Kluijver, KGJ Nierop, TM Morganti, MC Bart, BM Slaby, U Hanz, …
Journal: PLOS ONE
Year: 2021
Citations: 31
In situ pumping rate of 20 marine demosponges is a function of osculum area
Authors: TM Morganti, M Ribes, R Moskovich, J Weisz, G Yahel, R Coma
Journal: Frontiers in Marine Science
Year: 2021
Citations: 31
In situ observation of sponge trails suggests common sponge locomotion in the deep central Arctic
Authors: TM Morganti, A Purser, HT Rapp, CR German, MV Jakuba, L Hehemann, …
Journal: Current Biology
Year: 2021
Citations: 24
VacuSIP, an improved InEx method for in situ measurement of particulate and dissolved compounds processed by active suspension feeders
Authors: T Morganti, G Yahel, M Ribes, R Coma
Journal: JoVE (Journal of Visualized Experiments)
Year: 2016
Citations: 24
The removal of dissolved organic matter by marine sponges is a function of its composition and concentration: An in situ seasonal study of four Mediterranean species
Authors: M Ribes, G Yahel, C Romera-Castillo, R Mallenco, TM Morganti, R Coma
Journal: Science of The Total Environment
Year: 2023
Citations: 16
Habitat types and megabenthos composition from three sponge-dominated high-Arctic seamounts
Authors: T Stratmann, E Simon-Lledó, TM Morganti, A de Kluijver, A Vedenin, …
Journal: Scientific Reports
Year: 2022
Citations: 16

Chenxu Zhang | Energy | Best Researcher Award

Posted on 22/04/202522/04/2025 by ScienceFather

Dr. Chenxu Zhang | Energy | Best Researcher Award

Postdoctoral Fellow from Shenzhen University, China

Dr. Chenxu Zhang is a dedicated materials scientist specializing in electrocatalysis, particularly focusing on hydrogen evolution reactions (HER) and water splitting technologies. His academic journey encompasses a bachelor’s and master’s degree from Shijiazhuang Tiedao University, a Ph.D. from Jilin University, and postdoctoral research at Shenzhen University and the City University of Hong Kong. Dr. Zhang’s research emphasizes the development of advanced catalysts, including high-entropy alloys and pentlandite-based materials, aiming to enhance the efficiency and stability of HER processes. His contributions are evidenced by multiple publications in high-impact journals and several granted patents, reflecting his commitment to advancing sustainable energy solutions through innovative materials design.

Professional Profile

Scopus Profile

Education

Dr. Zhang commenced his academic pursuits with a Bachelor of Engineering in Materials Science and Engineering at Shijiazhuang Tiedao University (2012–2016). He continued at the same institution for his master’s degree in Material Engineering (2016–2019), where he investigated the photocatalytic properties of graphite phase carbon nitride-based catalysts. Pursuing further specialization, he obtained his Ph.D. in Material Physics and Chemistry from Jilin University (2019–2022), focusing on transition metal chalcogenide catalysts for hydrogen production via water electrolysis. Currently, he is engaged in postdoctoral research at Shenzhen University and the City University of Hong Kong, exploring high-entropy alloy-based porous structures for electrocatalytic water splitting.

Professional Experience

Dr. Zhang’s professional trajectory is marked by significant research engagements across esteemed institutions. During his doctoral studies at Jilin University, he delved into the synthesis and application of transition metal chalcogenides for HER. His postdoctoral tenure at Shenzhen University and the City University of Hong Kong involves designing high-entropy alloy-based porous materials to improve electrocatalytic water splitting efficiency. Throughout his career, Dr. Zhang has led and contributed to multiple research projects, demonstrating his ability to manage complex scientific inquiries and collaborate effectively within multidisciplinary teams.

Research Interests

Dr. Zhang’s research interests are centered on the development of advanced materials for energy conversion processes. He focuses on electrocatalysis, particularly the hydrogen evolution reaction, aiming to design catalysts that are both efficient and stable across various pH environments. His work involves exploring high-entropy alloys, pentlandite-based materials, and transition metal chalcogenides to enhance water splitting technologies. By integrating experimental techniques with theoretical insights, Dr. Zhang seeks to address the challenges in sustainable hydrogen production, contributing to the broader goal of clean energy advancement.

Research Skills

Dr. Zhang possesses a robust skill set in materials synthesis, characterization, and performance evaluation. He is proficient in fabricating nanostructured catalysts and employing techniques such as X-ray diffraction, electron microscopy, and electrochemical measurements to assess material properties. His expertise extends to designing experiments that elucidate the mechanisms underlying catalytic processes, enabling the optimization of material performance. Additionally, Dr. Zhang demonstrates strong capabilities in scientific writing and project management, facilitating the dissemination of research findings and the successful execution of research initiatives.

Awards and Honors

Throughout his academic and professional journey, Dr. Zhang has received numerous accolades recognizing his contributions to materials science. His honors include national scholarships, provincial awards for outstanding graduates, and multiple prizes in innovation and entrepreneurship competitions. Notably, he has been acknowledged for his leadership and academic excellence during his tenure at Jilin University. These awards reflect Dr. Zhang’s dedication to research excellence and his impact within the scientific community.

Conclusion

Dr. Chenxu Zhang exemplifies a researcher with a profound commitment to advancing materials science for energy applications. His comprehensive education, extensive research experience, and consistent recognition through awards underscore his qualifications for the Best Researcher Award. Dr. Zhang’s work addresses critical challenges in sustainable energy, and his ongoing contributions continue to influence the field of electrocatalysis. His profile reflects a trajectory of excellence and innovation, making him a deserving candidate for recognition in his domain.

Publications Top Notes

A high-entropy oxyhydroxide with a graded metal network structure for efficient and robust alkaline overall water splitting
Authors: Chenxu Zhang, et al.
Journal: Advanced Science, 2024, Article ID: 2406008
Highly conductive amorphous pentlandite anchored with ultrafine platinum nanoparticles for efficient pH‐universal hydrogen evolution reaction
Authors: Chenxu Zhang#, Yanan Cui#, et al.
Journal: Advanced Functional Materials, 2021, 31, 2105372
Structure-catalytic functionality of size-facet-performance in pentlandite nanoparticles
Authors: Chenxu Zhang, et al.
Journal: Journal of Energy Chemistry, 2023, 78, 438
Ruthenium nanoparticles/pentlandite composite for efficient and stable pH-universal hydrogen evolution reaction: The enhanced interfacial interaction
Authors: Chenxu Zhang, et al.
Journal: Small, 2024, 19, 2301721
Recent advances in pentlandites for electrochemical water splitting: A short review
Authors: Chenxu Zhang, et al.
Journal: Journal of Alloys and Compounds, 2020, 838, 155685
The charge transport double-channel structure facilitating Fe₅Ni₄S₈/Ni₃S₂ nanoarray for efficient and stable overall water splitting
Authors: Yanan Cui#, Chenxu Zhang#, et al.
Journal: Applied Surface Science, 2022, 604, 154473

MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Posted on 27/09/202428/09/2024 by ScienceFather

Assoc Prof Dr. MOHD YUSUF KHAN | Clean Energy | Best Researcher Award

Assoc Prof Dr. MOHD YUSUF KHAN, King Fahd University of Petroleum and Minerals, Saudi Arabia

Assoc. Prof. Dr. Mohd Yusuf Khan is a distinguished academic at King Fahd University of Petroleum and Minerals (KFUPM) in Saudi Arabia, where he specializes in clean energy technologies and sustainable practices. With extensive experience in research and development, Dr. Khan has significantly contributed to advancing hydrogen technologies and carbon management through his work at the University Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). His academic journey includes notable positions as a Research Scientist and a Post-doctoral Fellow, during which he has published numerous articles in reputable journals. Dr. Khan is committed to fostering innovation in the clean energy sector and is dedicated to educating the next generation of engineers and scientists.

Profile:

Academics:

Assoc. Prof. Dr. Mohd Yusuf Khan is currently a faculty member at King Fahd University of Petroleum and Minerals, Saudi Arabia. He holds a Ph.D. in Chemical Engineering with a specialization in Polymer Science/Engineering from Yeungnam University, South Korea, under the guidance of Prof. Seok Kyun Noh. His doctoral research focused on Fe (III)-Mediated MMA Polymerization without any external initiator, graduating with an impressive GPA of 4.37/4.5. Dr. Khan also holds a Master of Science degree in Industrial Chemistry from Aligarh Muslim University, where he was awarded a Gold Medal for academic excellence, and a Bachelor’s degree in the same specialization from the same institution.

Dr. Khan’s expertise spans polymer science, chemical engineering, and industrial chemistry, contributing to advancements in sustainable materials and energy solutions.

Professional Experiences:

Assoc. Prof. Dr. Mohd Yusuf Khan is a dedicated research scientist currently serving at King Fahd University of Petroleum & Minerals (KFUPM), Saudi Arabia, in the Interdisciplinary Research Center for Hydrogen Technologies and Carbon Management (IRC-HTCM). Since 2021, he has held the position of Research Scientist-II, following a five-year tenure as Research Scientist-III at the same center. Prior to KFUPM, Dr. Khan gained international experience as a Post-doctoral Fellow at both the Center of Excellence in Nanotechnology at KFUPM and Soongsil University in South Korea. He also worked in the industry as a Production Officer at LUPIN Pharma Pvt. Ltd., Bhopal, India.

Awards:

Assoc. Prof. Dr. Mohd Yusuf Khan, currently at King Fahd University of Petroleum and Minerals, Saudi Arabia, has earned numerous accolades throughout his academic and professional career. He was awarded the prestigious BK (Brain Korea)-21 fellowship (2008-2012) for his Ph.D. in South Korea. His innovative research has led to recognition at major events, including the 25th ITEX 2014 for a photothermoelectric air duct system and the ITEX 2023 Appreciation Award for mentoring a gold-winning student at Asia’s leading technology exhibition. Dr. Khan also received the Best Paper Award in 2020 for research on biomass-derived carbon nanosheets, as well as multiple honors for his contributions to polymer science and industrial chemistry. He earned a Gold Medal in his M.Sc. for academic excellence at Aligarh Muslim University.

Publication Top Notes:

Steam reforming of dodecane using Ni-red mud catalyst: A sustainable approach for hydrogen production

Authors: Alfuhaid, L.T., Nasser, G.A., Alabdulhadi, R.A., Yamani, Z.H., Helal, A.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 86, pp. 177–184

Citations: 0

Fabrication and characterization of rippled graphene/LDPE composites with enhanced hydrogen barrier properties

Authors: Alkrunz, M., Shajahan, S., Elkaffas, R., Zweiri, Y., Abdul Samad, Y.

Year: 2024

Journal: International Journal of Hydrogen Energy, 2024, 85, pp. 794–803

Citations: 0

Effect of Synthetic Methodology on the Physicochemical Attributes and Electrocatalytic Activity of NiAl-LDHs for the Oxygen Evolution Reaction

Authors: Hanif, A., Khan, M.Y., Ehsan, M.A., Abdul Aziz, M., Khan, A.

Year: 2024

Journal: Chemistry – An Asian Journal, 2024, 19(16), e202300625

Citations: 1

Tailored design of CO2-selective mixed-matrix membranes using nitrile-functionalized COFs as 2D nanofillers

Authors: Hoque, B., Khan, M.Y., Hanif, A., Usman, M., Drmosh, Q.A.

Year: 2024

Journal: Journal of Environmental Chemical Engineering, 2024, 12(3), 112695

Citations: 3

Thermally Stable and High-Surface-Area Triptycene and Phenanthroline-Based Microporous Polymer for Selective CO2 Capture over CH4 and N2

Authors: Ansari, M., Rehman, A.N., Khan, A., Khan, M.Y.

Year: 2024

Journal: ACS Applied Polymer Materials, 2024, 6(7), pp. 3996–4004

Citations: 1

Amino acid-assisted effect on hydrate-based CO2 storage in porous media with brine

Authors: Rehman, A.N., Bavoh, C.B., Khan, M.Y., Lal, B.

Year: 2024

Journal: RSC Advances, 2024, 14(13), pp. 9339–9350

Citations: 0

Nb2O5/BiOCl composite as a visible-light-active photocatalyst for the removal of RhB dye and photoelectrochemical studies

Authors: Zulkiflee, A., Mansoob Khan, M., Yusuf Khan, M., Khan, A., Hilni Harunsani, M.

Year: 2024

Journal: Journal of Photochemistry and Photobiology A: Chemistry, 2024, 446, 115177

Citations: 11

Printing Parameter Optimization of Additive Manufactured PLA Using Taguchi Design of Experiment

Authors: Ahmed, B.A., Nadeem, U., Hakeem, A.S., Younas, M., Saeed, H.A.

Year: 2023

Journal: Polymers, 2023, 15(22), 4370

Citations: 0

Sn-doped BiOCl for photoelectrochemical activities and photocatalytic dye degradation under visible light

Authors: Zulkiflee, A., Khan, M.M., Khan, A., Dafalla, H.D.M., Harunsani, M.H.

Year: 2023

Journal: Heliyon, 2023, 9(11), e21270

Citations: 7

CO2 Adsorption on Biomass-Derived Carbons from Albizia procera Leaves: Effects of Synthesis Strategies

Authors: Hanif, A., Aziz, M.A., Helal, A., Theravalappil, R., Khan, M.Y.

Year: 2023

Journal: ACS Omega, 2023, 8(39), pp. 36228–36236

Citations: 2

Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

Posted on 04/09/202405/09/2024 by ScienceFather

Dr. Alexander Gusev | Hydrogen Energy | Environmental Engineering Impact Award

Scientific Director, Professor at Fermaltech Montenegro Limited, Montenegro

Alexander L. Gusev is a distinguished academic and researcher in hydrogen energy and environmental engineering, serving as an academician at the European Academy of Natural Sciences and a professor at multiple institutions including STC “TATA” and the Institute of Hydrogen Economics. Renowned for his contributions to hydrogen safety and alternative energy, he is among the top-cited scientists in his field and has authored over 500 scientific works. Gusev’s expertise spans hydrogen technologies, cryogenics, and nanomaterials, with notable innovations in extinguishing large fires using cryogenic gases and developing advanced hydrogen storage systems. His leadership in organizing international scientific forums and his role as an expert on various governmental programs highlight his impact on the field. Gusev’s accolades include the K.E. Tsiolkovsky Medal and recognition from several scientific and technological societies. His work continues to shape advancements in energy efficiency and environmental safety.

Profile

Scopus Profile

Education

Alexander L. Gusev’s educational background is distinguished and comprehensive. He began his academic journey at the Physics and Mathematics School in Frunze, USSR, from 1968 to 1978, followed by studies at the Correspondence School of Physics and Mathematics at Moscow Institute of Physics and Technology in 1977-1978. He pursued higher education at the Military Engineering Institute named after A.F. Mozhajskij, graduating in 1983 with a focus on solid-state physics, chemistry, thermodynamics, and space technology. Gusev continued his advanced studies with postgraduate work from 1989 to 1995 at NPO “Cryogenmash,” where he specialized in hydrogen technologies and cryogenics, earning accolades for his thesis on large-scale cryo vacuum systems. His commitment to continuous learning is reflected in additional refresher courses in German and English language skills, enhancing his professional and international capabilities.

Professional Experience

Alexander L. Gusev is a distinguished academic and researcher with extensive experience in alternative energy and ecology. He serves as the head of the Department of Alternative Energy and Ecology at the European Academy of Natural Sciences in Hanover, Germany, and holds professorships at STC “TATA” and the Institute of Hydrogen Economics. Gusev has a notable background in hydrogen technologies, ranking fifth globally in hydrogen safety research according to Google Scholar. His career includes significant contributions to the development of cryogenic systems and hydrogen energy technologies, with over 70 patents and more than 500 scientific works to his name. He has led and participated in over 25 R&D projects, including groundbreaking work on large-scale cryo vacuum systems and hydrogen fuel technologies. Gusev’s expertise extends to the organization of major international scientific forums and collaboration with leading global institutions such as Toyota, Bayer, and NASA.

Research Interest

Alexander L. Gusev is renowned for his research in hydrogen energy technologies and their environmental impact. His work focuses on the development and application of hydrogen production from both renewable and non-renewable sources, emphasizing environmentally friendly methods and energy efficiency. Gusev’s research encompasses hydrogen safety, fuel cells, and advanced materials such as nanocatalysts and porous materials for energy applications. He has made significant contributions to cryogenic and vacuum technologies, particularly in the storage and transportation of hydrogen. His interests also include the integration of alternative energy systems and ecological considerations in energy use. Gusev’s innovative projects extend to large-scale technological solutions, such as extinguishing technological fires using cryogenic gases and developing hydrogen recombiners. His research aims to enhance sustainable energy practices and address environmental challenges through advanced scientific and technical solutions.

Research Skills

Alexander L. Gusev possesses extensive research skills in the field of hydrogen energy and environmental engineering. His expertise spans a range of critical areas, including hydrogen production from renewable sources, energy storage and transportation, and advanced cryogenic technologies. Gusev’s proficiency in hydrogen safety and its applications is reflected in his significant contributions to the development of hydrogen energy technologies, such as cryogenic systems and hydrogen fuel cells. He excels in material characterization and nanotechnology, with a particular focus on nanocatalysts and gas adsorption. His skills also extend to designing and implementing innovative solutions for environmental safety, including large-scale fire suppression and cryogenic vacuum systems. Gusev’s extensive experience in leading international research projects and his role in developing standards for hydrogen technologies further highlight his advanced capabilities in scientific research and technological innovation.

Award and Recognition

Alexander L. Gusev is a distinguished scientist renowned for his contributions to alternative energy and hydrogen technologies. He has earned significant accolades, including the prestigious K. E. Tsiolkovsky Medal for his advancements in cosmonautics and recognition as a Veteran of Nuclear Energy and Industry by Rosatom. Gusev’s work in hydrogen safety and cryogenics has positioned him as a leading figure globally, ranking fifth in hydrogen safety research according to Google Scholar. His innovative approaches have garnered over 70 patents and numerous international awards. He has also been honored as an Academician of both the European Academy of Natural Sciences and the Serbian Royal Academy of Science and Art. Gusev’s visionary leadership in developing eco-friendly energy solutions and his role in major international scientific events underscore his exceptional impact on the field of environmental engineering and energy technologies.

Conclusion

Alexander L. Gusev is a highly suitable candidate for the Research for Environmental Engineering Impact Award due to his extensive expertise, significant contributions to hydrogen energy technologies, and broad recognition in the field. His innovative solutions and leadership in international scientific events reflect his commitment to advancing environmental engineering. By expanding his focus to emerging environmental issues and increasing public engagement, Gusev could further enhance his impact and contributions to the field.

Publication Top Notes

Title: Economic Aspects of Nuclear and Hydrogen Energy in the World and Russia
- Authors: SZ Zhiznin, VM Timokhov, AL Gusev
- Year: 2020
- Journal: International Journal of Hydrogen Energy
- Volume: 45
- Issue: 56
- Pages: 31353–31366
- Citations: 133
Title: Economics of Secondary Renewable Energy Sources with Hydrogen Generation
- Authors: SZ Zhiznin, S Vassilev, AL Gusev
- Year: 2019
- Journal: International Journal of Hydrogen Energy
- Volume: 44
- Issue: 23
- Pages: 11385–11393
- Citations: 73
Title: Algorithm for Optimal Pairing of RES and Hydrogen Energy Storage Systems
- Authors: AS Ufa, R.A. Malkova, Y.Y. Gusev, A.L. Ruban, N.Y. Vasilev
- Year: 2021
- Journal: International Journal of Hydrogen Energy
- Pages: 33659–33669
- Citations: 55
Title: Hydrogen Production by Low-Temperature Plasma Decomposition of Liquids
- Authors: NA Bulychev, MA Kazaryan, AS Averyushkin, AA Chernov, AL Gusev
- Year: 2017
- Journal: International Journal of Hydrogen Energy
- Volume: 42
- Issue: 33
- Pages: 20934–20938
- Citations: 55
Title: Economics of Hydrogen Energy of Green Transition in the World and Russia. Part I
- Authors: ALG SZ Zhiznin, VM Timokhov
- Year: 2022
- Journal: International Journal of Hydrogen Energy
- Status: In Print
- Citations: 54*
Title: Thermodynamic Peculiarities of Low-Temperature Regeneration of Cryosorption Devices in Heat-Insulation Cavities of Hydrogenous Cryogenic Tanks
- Authors: AL Gusev
- Year: 2001
- Journal: International Journal of Hydrogen Energy
- Volume: 26
- Issue: 8
- Pages: 863–871
- Citations: 39
Title: Cleaning System for Corrosive Gases and Hydrogen
- Authors: AL Gusev
- Year: 2009
- Journal: Chemical and Petroleum Engineering
- Volume: 45
- Issue: 9
- Page: 640
- Citations: 37
Title: Hydrogen Sensor for Cryogenic Vacuum Objects
- Authors: AL Gusev, VM Belousov, IV Bacherikova, LV Lyashenko, EV Rozhkova
- Year: 2002
- Journal: Hydrogen Materials Science and Chemistry of Metal Hydrides
- Pages: 41–47
- Citations: 35
Title: О Механизме Анодного Окисления Алюминия В Водных Растворах Электролитов (On the Mechanism of Anodic Oxidation of Aluminum in Aqueous Electrolyte Solutions)
- Authors: ИЛ Батаронов, АЛ Гусев, ЮВ Литвинов, ЕЛ Харченко, ЮН Шалимов
- Year: 2007
- Journal: Альтернативная Энергетика И Экология
- Pages: 118–126
- Citations: 34
Title: Main Environmental Problems in Nizhny Novgorod Region and Ways to Transition to a Hydrogen Economy
- Author: AL Gusev
- Year: 2006
- Journal: International Scientific Journal for Alternative Energy and Ecology (ISJAEE)
- Citations: 33

Hossein Haghani | Sustainable Energy | Sustainable Engineering Leadership Award

Posted on 22/07/202423/07/2024 by ScienceFather

Dr. Hossein Haghani | Sustainable Energy | Sustainable Engineering Leadership Award

Researcher of Chulalongkorn University, Thailand .

Scopus Profile

Education

Hossein Haghani completed his B.Sc. in Applied Chemistry at Kharazmi University, Tehran, Iran, in 2002. He pursued his M.Sc. in Physical Chemistry at Sistan and Baluchestan University, Zahedan, Iran, from 2008 to 2010, focusing on the investigation of intermolecular hydrogen bonds in damaged base pairs under the supervision of Prof. A. Ebrahimi. Haghani earned his Ph.D. in Physical Chemistry from Bu-Ali Sina University, Hamedan, Iran, between 2011 and 2016. His doctoral research, supervised by Prof. H. Iloukhani, explored the thermodynamic properties of binary and ternary solutions consisting of ionic liquids. He also undertook a sabbatical at the State University of New York, College at Brockport, USA, from January to July 2015, working with Prof. M. Hoffmann.

Professional Experience

Hossein Haghani has held several academic and research positions throughout his career. From September 2016 to September 2022, he served as an Assistant Professor and Researcher at Lamerd Higher Education Center, Shiraz University of Technology, Shiraz, Iran. He has also been an Invited Researcher at Beifang University of Nationalities, Yinchuan, China, multiple times (June to September 2016, June to July 2017, and June to July 2018), where he focused on ionic liquids and molecular dynamics simulations. Currently, he is a Postdoctoral Fellow at Chulalongkorn University, Bangkok, Thailand. His career includes international engagements, such as his Ph.D. candidate research role at the State University of New York, College at Brockport, USA, from January to July 2015.

Research Interest

Hossein Haghani’s research interests are centered around several advanced topics in chemistry and sustainable technologies. He focuses on sustainable energy and CO2 capture, aiming to develop effective methods for reducing carbon emissions and enhancing energy efficiency. His work on the thermodynamic properties of fluids, particularly ionic liquids, involves detailed studies to better understand their behavior and applications. Haghani employs theoretical and computational chemistry techniques, including Density Functional Theory (DFT) calculations, to explore complex chemical systems. His use of molecular dynamics (MD) simulations allows for precise modeling of chemical interactions and behaviors. Additionally, he investigates quantum mechanics in lithium-ion batteries, seeking improvements in battery performance and longevity. Through these diverse research areas, Haghani contributes to advancing both theoretical understanding and practical applications in chemistry and sustainable energy technologies.

Award and Honors

Hossein Haghani has received several notable awards and honors throughout his academic career. He graduated with a Master’s degree with a GPA of 3.70 out of 4, ranking first in his class, and his thesis earned a high score of 3.96/4.00. Haghani is recognized as a Talented Student at Bu-Ali Sina University, reflecting his exceptional academic performance. He has been honored as a Review Editor on the editorial boards of Molecular Liquids (Frontiers in Chemistry) and MDPI publisher. His contributions to research and academia are further acknowledged by his international participation, including presenting at various conferences and receiving accolades for his research on CO2 capture and other advanced chemical processes. These awards highlight his significant impact and commitment to advancing the field of chemistry.

Research Skills

Hossein Haghani excels in a range of research skills essential for advancing chemistry and materials science. He specializes in sustainable energy and CO2 capture, focusing on designing and analyzing methods to mitigate carbon emissions. His work in thermodynamic properties of fluids, particularly ionic liquids, involves detailed studies of fluid dynamics and their applications. Haghani is adept in theoretical and computational chemistry, using Density Functional Theory (DFT) calculations to explore chemical properties and reactions. His proficiency in molecular dynamics (MD) simulation allows him to model and analyze the behavior of molecules under various conditions. Additionally, he investigates the quantum mechanics of lithium-ion batteries, aiming to improve their performance. These diverse skills enable Haghani to contribute significantly to research in chemical technology and sustainable energy solutions.