Ferenc Ács | Human biometeorology | Best Researcher Award

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Assoc. Prof. Dr. Ferenc Ács | Human biometeorology | Best Researcher Award

Assoc. Prof. Dr. Ferenc Ács, University Eötvös Loránd, Institute of Geography and Earth Sciences, Department of Meteorology, Hungary

Ferenc Ács, born on December 28, 1955, in Novi Sad, Serbia, is a distinguished meteorologist specializing in atmospheric sciences. He earned his BSc in Physics from the University of Novi Sad in 1979 and his MSc in Meteorology from the University of Belgrade in 1989. After serving as a research associate in Austria and Germany, he joined Eötvös Loránd University (ELTE) in Hungary in 1994. Dr. Ács obtained his habilitation degree in 2008 with a focus on soil-plant-atmosphere interactions. His research spans heat and water transport, evapotranspiration, and climate classification. Since 2016, he has concentrated on human biometeorology, developing clothing thermal resistance models. Retired since 2021, he remains a lecturer at ELTE, contributing significantly to the field.

Publication Profile

Orcid

Education 🎓

Ferenc Ács completed his BSc in Physics at the University of Novi Sad in 1979, where he built a strong foundation in atmospheric physics. In 1989, he pursued an MSc in Meteorology at the University of Belgrade, focusing on the development of a multi-layer vegetation model for atmospheric studies. His MSc thesis explored the relationship between transpiration and vegetation’s physical and biological properties. His academic pursuits continued at Eötvös Loránd University (ELTE), where he obtained his habilitation degree in 2008. His thesis on the interaction processes within the soil-plant-atmosphere system showcased his expertise in environmental modeling.

Experience 🧑‍🔬

Dr. Ferenc Ács has an extensive career in meteorology. From 1992 to 1994, he served as a scholarship holder and research associate in Vienna, Austria, and Braunschweig, Germany. In 1994, he joined ELTE’s Department of Meteorology, contributing as a researcher and lecturer. His focus included soil and water transport processes, convective precipitation, and boundary layer dynamics. After obtaining his habilitation degree in 2008, Dr. Ács expanded his expertise into human biometeorology, specifically researching clothing thermal resistance and human thermal comfort. Despite his retirement in 2021, he continues his collaboration with ELTE as a lecturer, enriching the field of atmospheric sciences.

Research Focus 🔎

Dr. Ferenc Ács’s research primarily covers atmospheric and environmental science. His initial studies addressed heat and water transport in soil, evapotranspiration processes, and convective precipitation. He also investigated planetary boundary layer dynamics, lightning frequency, and climate classification. Since 2016, he has shifted his focus to human biometeorology, concentrating on the development of clothing thermal resistance models to assess the impact of climate and weather on human thermal comfort. His multidisciplinary approach combines physical and biological modeling, contributing significantly to understanding human-environment interactions.

 

Publication Top Notes

  • Human thermal bioclimate of the Swiss-Austrian alpine region based on estimates of the clothing thermal resistance model (2025) – 📖 DOI: 10.1007/s00704-025-05433-y

  • Hogyan optimalizálható a lakások fűtése és hűtése egyszerű lépésekkel? (2024) –  📖 DOI: 10.31852/EMF.36.2024.073.077

  • Comparison of human thermal loads on foggy and cloudless mornings (2024) –  📖 DOI: 10.21203/rs.3.rs-4085090/v1

  • On the Human Thermal Load in Fog (2024) –  📖 DOI: 10.3390/meteorology3010004

  • Individual local human thermal climates in the Hungarian lowland: Estimations by a simple clothing resistance‐operative temperature model (2023) – 📖 DOI: 10.1002/joc.7910

  • New statistical deterministic method for estimating human thermal load and sensation — application in the Carpathian region (2023) – 📖 DOI: 10.1007/s00704-022-04297-w

  • A 2021-es balatoni strandszezon hosszának becslése meteorológiai és humánmeteorológiai információk alapján (2022) –  📖 DOI: 10.31852/EMF.34.2022.078.083

  • Projected changes in Feddema climate characteristics in the Larger Carpathian Region by the end of the 21st century (2022)  📖 DOI: 10.1002/joc.7558

  • Clothing resistance and potential evapotranspiration as thermal climate indicators—The example of the Carpathian region (2021) –  📖 DOI: 10.1002/joc.7008

  • Human thermal climate of the Carpathian Basin (2021) – 📖 DOI: 10.1002/joc.6816

  • Larger Carpathian region climate according to Köppen, Feddema and the Worldwide Bioclimatic Classification System methods (2021) –  📖 DOI: 10.1002/joc.6859

  • Carpathian Basin climate according to Köppen and a clothing resistance scheme (2020) –  📖 DOI: 10.1007/s00704-020-03199-z

  • A túrázás humánmeteorológiai szempontból: 2. rész: gyakorlati alkalmazások (2018) –  📖 DOI: 10.31852/EMF.30.2018.022.027

  • Climate and climate change in the Austrian–Swiss region of the European Alps during the twentieth century according to Feddema (2018) -📖 DOI: 10.1007/s00704-017-2230-6

conclusion

Dr. Ferenc Ács is a strong candidate for the Research for Best Researcher Award. His impactful work in climate classification, biometeorology, and atmospheric interactions demonstrates his significant influence in the field.

 

Pin-Chun Huang | Environmental Science | Best Researcher Award

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Assist. Prof. Dr. Pin-Chun Huang | Environmental Science | Best Researcher Award

Assist. Prof. Dr. Pin-Chun Huang, National Taiwan Ocean University, Taiwan

Dr. Huang is an expert in hydrology and river engineering with extensive experience in rainfall-runoff modeling and flood prediction. He holds a Ph.D. from NTOU and has received numerous awards, including the 2022 Excellent Young Scholars Award from Taiwan’s National Science and Technology Council. He has published widely in high-impact journals, focusing on hydrological and geomorphological systems for flood and coastal inundation forecasting. 🌊💧🌐📚

Publication Profile

Google Scholar

 

Professional Experience

Assist. Prof. Dr. Pin-Chun Huang has a diverse academic and research background. Since February 2022, he has been serving as an Assistant Professor in the Department of Harbor and River Engineering at National Taiwan Ocean University (NTOU). He also has experience as a Visiting Scholar at several prestigious institutions, including the University of California, Irvine (2019) and Moscow State University (2017). Dr. Huang worked as an Assistant Research Fellow at NTOU’s Center of Excellence for Ocean Engineering from 2018 to 2022. Additionally, he held a postdoctoral position at NTOU from 2016 to 2018. 🌍🔬📚

Education

Assist. Prof. Dr. Pin-Chun Huang has an extensive academic foundation in Harbor and River Engineering from National Taiwan Ocean University (NTOU). He earned his Ph.D. in 2016, following a Master’s degree in 2013, both from NTOU’s Department of Harbor and River Engineering. Dr. Huang’s academic journey began at NTOU in 2007, where he completed his Bachelor’s degree in 2011. His solid educational background equips him with deep expertise in hydrology, hydraulics, and engineering research. 📘🎓🌊

Awards and Honors

Assist. Prof. Dr. Pin-Chun Huang has received numerous prestigious awards throughout his career. In 2022, he was honored with the Excellent Young Scholars Award by Taiwan’s National Science and Technology Council. Dr. Huang also received the Academic Research Advancement Award from National Taiwan Ocean University in 2021. His academic excellence has been recognized with an Honorary Membership in the Phi Tau Phi Scholastic Honor Society (2016), and the Best Paper Award at the Disaster Management Conference (2013). Additionally, he was awarded the Engineering, Science, and Technology Scholarship by China Engineering Consultants in 2011 and 2012. 🏅🎖️📜

Research Interests

 

Assist. Prof. Dr. Pin-Chun Huang’s research interests are focused on surface hydrology and channel hydraulics, aiming to better understand water flow and flood behavior in various environments. His expertise includes rainfall-runoff modeling, which helps predict stormwater runoff, and flood forecasting for urban and rural areas. He also specializes in coastal inundation simulation to evaluate flood risks in coastal regions, integrating storm surge and topographic characteristics. Additionally, Dr. Huang works on geomorphologic analysis, studying the impact of landscape features on hydrological processes. 🌊💧🌍🏞️🌧️

Publication Top Notes

  • “Distinctions of geomorphological properties caused by different flow-direction predictions from digital elevation models” – Cited by: 21, Year: 2016 🌍📊
  • “An efficient method for DEM-based overland flow routing” – Cited by: 21, Year: 2013 🚶‍♂️🌧️
  • “Evaluating the adequateness of kinematic-wave routing for flood forecasting in midstream channel reaches of Taiwan” – Cited by: 21, Year: 2012 🌊🔮
  • “Influence of topographic features and stream network structure on the spatial distribution of hydrological response” – Cited by: 16, Year: 2021 🏞️📈
  • “An effective alternative for predicting coastal floodplain inundation by considering rainfall, storm surge, and downstream topographic characteristics” – Cited by: 11, Year: 2022 🌧️🌊
  • “Improvement of two-dimensional flow-depth prediction based on neural network models by preprocessing hydrological and geomorphological data” – Cited by: 11, Year: 2021 🤖🌐
  • “Efficient DEM‐based overland flow routing using integrated recursive algorithms” – Cited by: 11, Year: 2017 🌍🔄
  • “A simple depression-filling method for raster and irregular elevation datasets” – Cited by: 11, Year: 2015 🏔️🧑‍💻
  • “Assessment of flood mitigation through riparian detention in response to a changing climate–a case study” – Cited by: 9, Year: 2018 🌎🌧️
  • “An alternative for predicting real-time water levels of urban drainage systems” – Cited by: 8, Year: 2023 🌆💧
  • “Analysis of hydrograph shape affected by flow-direction assumptions in rainfall-runoff models” – Cited by: 7, Year: 2020 🌧️🔍
  • “Channel hydrological response function considering inflow conditions and hydraulic characteristics” – Cited by: 5, Year: 2020 🌊⚙️
  • “Channel-flow response function considering the downstream tidal effect and hydraulic characteristics” – Cited by: 3, Year: 2021 🌊🔄
  • “Refinement of the channel response system by considering time‐varying parameters for flood prediction” – Cited by: 3, Year: 2020 🌧️📈
  • “Establishing a shallow-landslide prediction method by using machine-learning techniques based on the physics-based calculation of soil slope stability” – Cited by: 2, Year: 2023 🌍🔮
  • “A novel method of estimating dynamic partial contributing area for integrating subsurface flow layer into GIUH model” – Cited by: 2, Year: 2023 🌍🧠

Bill Donatien LOUBELO MADIELA | Environmental Science | Best Researcher Award

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Dr. Bill Donatien LOUBELO MADIELA | Environmental Science | Best Researcher Award

Dr. Bill Donatien Loubelo Madiela is a distinguished Congolese lecturer-researcher in Atmospheric Physics and Remote Sensing, currently teaching at Denis Sassou-N’Guesso University. Born on February 21, 1981, in Brazzaville, Republic of Congo, Dr. Loubelo earned his PhD in Atmospheric Physics from Marien Ngouabi University in 2018. His research focuses on the use of satellite imagery for vegetation mapping and carbon stock assessment, particularly in Congo’s northern forests. He has conducted extensive research in collaboration with international institutions, including the National Institute for Space Research (INPE) in Brazil and the French CNRS. Dr. Loubelo has published widely on geospatial techniques and environmental monitoring.

Publication Profile

Scopus

🎓 Educational Background

Dr. Loubelo Madiela holds a PhD in Atmospheric Physics (2018), with a thesis on “Cartography of Vegetation Gradients by Remote Sensing and Forest Carbon Stock Evaluation” from MARIEN NGOUABI University. His research received high recognition with honors. He also earned a Master’s degree (2008) and advanced diplomas in Physics and Environmental Sciences.

🌱 Research Focus

Dr. Loubelo Madiela’s work primarily revolves around geospatial techniques and remote sensing, particularly focusing on Land Use and Land Cover (LULC) assessment and climate change. His expertise has been showcased in international forums like IGARSS (2016, China).

Conclusion

Based on his extensive academic training, international collaborations, and contributions to geospatial research, Dr. Loubelo Madiela is a strong candidate for the Best Researcher Award. His impactful research in atmospheric physics and innovative use of remote sensing make him a valuable contender.

 

Publication Top Notes

Correction to: Identification of extreme rainfall events in the Republic of Congo from analysis of meteorological tendencies (Theoretical and Applied Climatology, (2024), 155, 6, (5033-5049), 10.1007/s00704-024-04889-8)

Identification of extreme rainfall events in the Republic of Congo from analysis of meteorological tendencies

Semantic pre-classification of vegetation gradient based on linearly unmixed Landsat time series

Diagnosis and Qualitative Estimation of the Hydric Erosion in Watershed of Talangaï (Brazzaville) by the Application of Geographical Information System (GIS)

Comparing Sentinel-2 and Landsat 9 for land use and land cover mapping assessment in the north of Congo Republic: a case study in Sangha region

Shunhui Yu | Environmental Science Award | Best Scholar Award

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Prof. Shunhui Yu | Environmental Science Award | Best Scholar Award

Prof. Shunhui Yu, Chongqing Three Gorges University, China

Prof. Shunhui Yu (1964) is a distinguished professor and master director at Chongqing Three Gorges University, specializing in the bioremediation of environmental pollution 🌱. With a master’s degree, she has led numerous research projects and has published over 50 papers, including 6 in SCI-indexed journals 📚. Prof. Yu has also contributed to academic literature by authoring 2 textbooks 📖. Her expertise and dedication to environmental science make her a leader in her field. 🌍👩‍🏫

 

Publication profile

Scopus

Orcid

Education and Academic Background

Prof. Shunhui Yu holds a master’s degree and is a professor and director of a master’s program. Her academic focus is primarily on the bioremediation of environmental pollution. This interdisciplinary field involves using living organisms to mitigate the harmful effects of pollutants on the environment, a critical area in the global push for sustainable development.

Research Contributions

Prof. Yu has been responsible for leading several research projects, contributing significantly to her field. She has published more than 50 research papers, including 6 papers in international SCI-indexed journals, which demonstrates her expertise and recognition in the scientific community. Additionally, she has authored 2 textbooks, further solidifying her role in academic education.

Professional Experience

Prof. Yu is currently affiliated with Chongqing Three Gorges University, located in Wanzhou, Chongqing, China. Her extensive research experience, along with her involvement in mentoring graduate students, highlights her dedication to both research and education.

Conclusion

Prof. Shunhui Yu’s extensive research in bioremediation, numerous publications, leadership in research projects, and contributions to academic literature through textbooks make her a strong candidate for the Research for Best Scholar Award. Her work not only advances environmental science but also mentors the next generation of researchers.

 

Publication Top Notes

  • Habitat characteristics and factors threatening the rare and endangered fern Adiantum nelumboides 🌿
    Yu, S. et al., Nordic Journal of Botany, 2022 (1 citation) 📚
  • Temporal variations characteristic of precipitation in the Three Gorges Reservoir area from 1961 to 2016 🌧️
    Sheng, L. et al., Journal of Water and Climate Change, 2022 (5 citations) 💧
  • Physiological response of Vetiveria Zizanioides to cadmium stress revealed by Fourier transform infrared spectroscopy 🌱
    Yu, S.-H. et al., Spectroscopy Letters, 2022 (3 citations) 📖
  • Analysis of temperature variation characteristics in the Three Gorges Reservoir area after impoundment of the Three Gorges Dam 🌡️
    Yu, S. et al., Acta Ecologica Sinica, 2021 (8 citations) 🌍
  • Physiological response of Conyza Canadensis to cadmium stress monitored by Fourier transform infrared spectroscopy and cadmium accumulation 🌾
    Yu, S. et al., Spectrochimica Acta Part A, 2020 (26 citations) 📊
  • Physiological responses of Vetiveria zizanioides to cadmium stress by Fourier transform infrared spectroscopy 🌿
    Yu, S. et al., Shengtai Xuebao, 2019 (3 citations) 📑
  • Physiological response of Arundo donax to cadmium stress by Fourier transform infrared spectroscopy 🌱
    Yu, S. et al., Spectrochimica Acta Part A, 2018 (15 citations) 📜
  • Alleviation of cadmium toxicity in Corydalis yanhusuo seedlings by exogenous calcium or potassium 🌿
    Zhang, J. et al., Acta Prataculturae Sinica, 2017 (2 citations) 📔
  • Physiological response of Medicago sativa L. to copper stress by FTIR spectroscopy 🌿
    Fu, C. et al., Shengtai Xuebao, 2014 (7 citations) 📚
  • Analyzing comprehensive treatment measures and origin of Qianjiangping landslide in Three Gorges Reservoir Area 🌍
    Yu, S. et al., Advanced Materials Research, 2012 (2 citations) 📝

 

Paul Afreh | Environmental Science | Best Researcher Award

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Mr. Paul Afreh | Environmental Science | Best Researcher Award

Mr. Paul Afreh, Taiyuan University of Technology, China

Mr. Paul Afreh, a Ghanaian national currently residing in China, is pursuing an MSc in Environmental Science and Engineering at Taiyuan University of Technology under the supervision of Prof. Gao Lizhen. His research focuses on sustainable recycling and extraction of valuable elements from spent lithium-ion polymer batteries. Paul holds a BSc in Science Education from the University of Education, Winneba. He has extensive teaching experience, having served as Head of Science at Bosomtwe Oyoko Senior High School, Ghana. Paul has published research on lithium and cobalt recovery and is a qualified teacher in the UK. 🔋🌍📚

Education and Training 🎓

Mr. Paul Afreh is currently pursuing an MSc in Environmental Science and Engineering at Taiyuan University of Technology, China, under the supervision of Professor Gao Lizhen. His research focuses on sustainable recycling of lithium-ion polymer batteries through green technology. He has completed phases on high-temperature thermal pretreatment and selective cobalt recovery. His undergraduate degree, a BSc in Science Education (Biology/Chemistry), was obtained from the University of Education, Winneba, Ghana.

Publication profile

Scopus

Orcid

Work Experience 💼

Mr. Afreh has rich experience in both research and teaching. He has conducted extensive research on lithium-ion battery recycling and critiqued abstracts for international conferences. His teaching background includes roles as a university teaching assistant and head of the science department in Ghana, where he mentored both students and staff.

Honours and Awards 🏅

He holds Qualified Teacher Status (QTS) from the UK’s Teaching Regulation Agency and has served as Chairperson of the Subcommittee for the 5th Africa Beyond Aid International Conference. Additionally, he is a reviewer for the “Result in Engineering” journal, which shows his credibility in the academic community.

 

Digital Skills and Involvement 🌐

Mr. Afreh is proficient in various digital tools like Microsoft Office, Google Drive, Zoom, and specialized software like Origin Lab and Jade for XRD analysis. He is also actively involved in academic committees, notably the National Union of Ghanaian Students-China, Taiyuan Chapter.

Publication Top Notes

  • Optimization of high-temperature thermal pretreatment conditions for maximum enrichment of lithium and cobalt from spent lithium-ion polymer batteries
  • Sustainable Lithium and Cobalt Recovery from Spent Lithium-ion Batteries: Best Practices for the Future. A review

Conclusion

Mr. Paul Afreh’s strong academic credentials, impactful research in sustainable energy solutions, and leadership in academic committees make him a fitting candidate for the Research for Best Researcher Award. His innovative work on recycling lithium-ion batteries through green technology aligns with global research priorities, positioning him as a promising researcher.

Younghan Yoon | Environmental Science | Best Researcher Award

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Dr. Younghan Yoon | Environmental Science | Best Researcher Award

Dr. Younghan Yoon, Korea Institute of Civil Engineering and Building Technology, South Korea

Dr. Younghan Yoon appears to be a strong candidate for the “Best Researcher Award” based on his educational background, professional activities, research experiences, and contributions to environmental engineering.

Publication profile

Educational Background

Dr. Yoon holds a Doctor of Engineering degree from Yonsei University, focusing on environmental engineering, specifically developing activated carbon-impregnated materials for removing pollutants like fine dust and BTEX from the environment. His earlier education includes a Master’s degree from the Gwangju Institute of Science and Technology, where he studied the effects of cations on aerobic sludge granulation, and a Bachelor’s degree in Environmental Engineering from Korea University. His academic foundation is solid and directly relevant to environmental science and engineering.

Professional Activities

Dr. Yoon is an active member of several prestigious organizations, including the Korean Society of Environmental Engineering, the Korea Water Environment Society, and the Korean Society of Industrial-Academic Technology. His involvement in these organizations reflects his commitment to advancing environmental engineering research and sharing his expertise within the community.

Research Experience

Dr. Yoon’s research spans a wide range of critical environmental issues. He has led projects on disaster damage assessment and recovery quantification, urban coronavirus management, sustainable drinking water purification standards, food waste desalination, and phosphorus removal technology. His work addresses real-world environmental challenges, demonstrating both scientific innovation and practical applications.

Patents and Certifications

Dr. Yoon holds multiple patents related to water quality management and treatment technologies, including systems for water quality management, methods for improving water corrosiveness, and advanced oxidation processes. These patents showcase his ability to develop innovative solutions that can significantly impact environmental engineering practices.

Publication Top Notes

  • 📄 “Development of an Air Filter to Remove Fine Dust from Indoor Air Using a Traditional Korean Paper, ‘Hanji’” (2024) – 1 citation
  • 📄 “Development of Vulnerability Evaluation Technology for Environmental Facilities Focused on the Water Treatment Systems in South Korea” (2023)
  • 📄 “Prediction and Interpretation of Water Quality Recovery after a Disturbance in a Water Treatment System Using Artificial Intelligence” (2022) – 5 citations
  • 📄 “Development of a combined aerobic-anoxic and methane oxidation bioreactor system using mixed methanotrophs and biogas for wastewater denitrification” (2019) – 15 citations
  • 📄 “Bio-Methanol production using treated domestic wastewater with mixed methanotroph species and anaerobic digester biogas” (2018) – 13 citations
  • 📄 “Performance of activated carbon-impregnated cellulose filters for indoor VOCs and dust control” (2016) – 18 citations
  • 📄 “Fabrication and characterization of micro-porous cellulose filters for indoor air quality control” (2016) – 16 citations
  • 📄 “Control of indoor suspended microorganisms by UV and photocatalytic disinfection” (2015)
  • 📄 “Photocatalytic degradation of trichloroethylene in aqueous phase using nano-ZNO/Laponite composites” (2013) – 40 citations
  • 📄 “Analysis of changes in extreme weather events using extreme indices” (2011) – 5 citations


Conclusion

Dr. Younghan Yoon’s extensive academic background, active professional engagement, diverse research experience, and multiple patents make him a suitable and deserving candidate for the “Best Researcher Award.” His contributions to environmental engineering demonstrate both a deep understanding of complex environmental challenges and a commitment to developing sustainable solutions.

YOGENDRA KUMARGAUTAM | Environmental Science | Best Researcher Award

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Dr. YOGENDRA KUMARGAUTAM | Environmental Science | Best Researcher Award

Dr. YOGENDRA KUMARGAUTAM, Chaudhary Charan Singh University Meerut, India

Based on Dr. Yogendra Kumar Gautam’s profile, he appears to be a strong candidate for the Research for Best Researcher Award. Here’s a detailed assessment formatted in paragraphs

Publication profile

Educational Background

Dr. Yogendra Kumar Gautam has a robust educational foundation in materials science and physics. He earned his Ph.D. from the Indian Institute of Technology (IIT) Roorkee in 2013 with a thesis on “Experimental Investigation of Hydrogen Effect on Selected Nanostructured Coatings.” His M.Tech. in Solid State Materials from IIT Delhi (2007) and M.Sc. in Physics (Electronics) from Chaudhary Charan Singh University (2004) further underline his expertise in experimental physics and material science.

Academic and Professional Experience

With over 11 years of experience, Dr. Gautam has served as an Assistant Professor at Chaudhary Charan Singh University (CCSU) since 2015, currently holding a Senior Scale position. His earlier roles include Assistant Professor at Jaypee University of Engineering & Technology and Research Associate at IIT Roorkee. His research focuses on energy and environmental remediation, including nanostructured materials for hydrogen storage and sensors, which aligns well with cutting-edge research in energy technologies.

Research and Technical Skills

Dr. Gautam’s research spans several high-impact areas, including hydrogen and toxic gas sensors, supercapacitors, and solar cells. His expertise in experimental techniques such as DC/RF magnetron sputtering, pulse laser deposition, and various microscopy methods highlights his capability to advance material science. He has handled significant research projects funded by esteemed agencies like the Council of Higher Education, Government of UP, and UGC, demonstrating his leadership in securing and managing research funding.

Teaching and Supervision

Dr. Gautam has a comprehensive teaching portfolio covering renewable energy, material science, and advanced physics topics. He has supervised numerous Ph.D., M.Phil., and M.Sc. students, guiding research in areas such as nanostructured coatings and gas sensors. His involvement in research supervision underscores his commitment to mentoring the next generation of researchers.

Research Projects

He has successfully managed several research projects, including the development of metal hydride thin films and chemiresistive gas sensors, with substantial funding from various research grants. These projects not only contribute to fundamental scientific knowledge but also have practical applications in energy storage and environmental monitoring.

Publication Top Notes

  • Facile green synthesis and applications of silver nanoparticles: a state-of-the-art reviewRSC Advances 9, 34926-48 (269 citations, 2019) 🌿🔬
  • Structural, optical and thermoelectric properties of Al-doped ZnO thin films prepared by spray pyrolysisSurfaces and Interfaces 19, 100504 (84 citations, 2020) 🧪✨
  • Nanostructured metal oxide semiconductor-based sensors for greenhouse gas detection: Progress and challengesRoyal Society Open Science 8 (3), 201324 (78 citations, 2021) 🌍📉
  • Fast and reversible hydrogen sensing properties of Pd/Mg thin film modified by hydrophobic porous silicon substrateSensors and Actuators B: Chemical 213, 252-260 (54 citations, 2015) 🚀🔬
  • A study on structural, optical and hydrophobic properties of oblique angle sputter deposited HfO2 filmsApplied Surface Science 283, 332-338 (54 citations, 2013) 🧪📊
  • Effect of Co and Mn doping on the morphological, optical and magnetic properties of CuO nanostructuresSolid State Sciences 106, 106296 (53 citations, 2020) 🧲🔍
  • Experimental investigation of Co and Fe-Doped CuO nanostructured electrode material for remarkable electrochemical performanceCeramics International 47 (2), 2094-2106 (45 citations, 2021) ⚛️🔋
  • A room temperature hydrogen sensor based on Pd–Mg alloy and multilayers prepared by magnetron sputteringInternational Journal of Hydrogen Energy 40 (45), 15549-15555 (44 citations, 2015) 🔬🧪
  • Metal oxide nanomaterial-based sensors for monitoring environmental NO2 and its impact on the plant ecosystem: A reviewSensors & Diagnostics 1 (1), 106-129 (41 citations, 2022) 🌿🔍
  • Hydrogen absorption and optical properties of Pd/Mg thin films prepared by DC magnetron sputteringInternational Journal of Hydrogen Energy 37 (4), 3772-3778 (34 citations, 2012) 🧪💡
  • Enhancement in the sensitivity and selectivity of Cu functionalized MoS2 nanoworm thin films for nitrogen dioxide gas sensorMaterials Research Bulletin 150, 111784 (30 citations, 2022) 📈🔬
  • Sputter deposited crystalline V2O5, WO3 and WO3/V2O5 multi-layers for optical and electrochemical applicationsApplied Surface Science 536, 147804 (28 citations, 2021) 🧪🔬
  • Studies on hydrogen sensing properties of nanostructured Pd and Pd/Mg thin films prepared by pulsed laser depositionSensors and Actuators B: Chemical 176, 453-459 (27 citations, 2013) 🚀🔬
  • Hydrogenation of Pd-capped Mg thin films prepared by DC magnetron sputteringApplied Surface Science 257 (14), 6291-6295 (27 citations, 2011) 🔬🧪
  • Sputter-Grown Pd-Capped CuO Thin Films for a Highly Sensitive and Selective Hydrogen Gas SensorJournal of Electronic Materials 50, 192-200 (21 citations, 2021) 🌟🔋
  • Hydrogen absorption and desorption properties of Pd/Mg/Pd tri-layers prepared by magnetron sputteringSurface and Coatings Technology 237, 450-455 (16 citations, 2013) 🧪🔬
  • Structural, optical and antimicrobial properties of pure and Ag-doped ZnO nanostructuresJournal of Semiconductors 43 (3), 032802 (15 citations, 2022) 🌟🔬
  • Surface functionalized silver-doped ZnO nanocatalyst: a sustainable cooperative catalytic, photocatalytic and antibacterial platform for waste treatmentNanoscale Advances 5 (3), 805-819 (14 citations, 2023) 🌿♻️
  • Room temperature photoluminescence and spectroscopic ellipsometry of reactive co-sputtered Cu-doped ZnO thin filmsOptik 257, 168860 (11 citations, 2022) 💡🔬
  • Applications of green nanomaterials in coatingsGreen Nanomaterials for Industrial Applications, 107-152 (11 citations, 2022) 🌱🔬


Conclusion

Dr. Yogendra Kumar Gautam’s extensive research experience, significant contributions to material science, and effective supervision of emerging researchers make him a highly suitable candidate for the Research for Best Researcher Award.