Jun Liu | Climate Change | Best Researcher Award

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Mrs. Jun Liu | Climate Change | Best Researcher Award

Director, Taiyuan University of Technology, China

Mrs. Jun Liu is an Associate Professor at the College of Geological and Surveying Engineering, Taiyuan University of Technology, specializing in remote sensing applications with a strong focus on climate change, carbon estimation, and drought monitoring. She earned her Ph.D. in Remote Sensing of Environment from Nanjing University, China (2012), following a Master’s degree in Remote Sensing of Geological Disaster (2006) and a Bachelor’s degree in Surveying Engineering (2003), both from Taiyuan University of Technology. Her professional experience includes serving as a lecturer at Shanxi Engineering Vocational College (2006–2013), an associate professor since 2013 and a visiting fellow at the Australian National University (2017–2018). Mrs. Jun Liu’s research interests revolve around applying advanced satellite and geospatial technologies to monitor environmental changes and develop sustainable solutions. Her research skills include geospatial data analysis, environmental monitoring, carbon accounting and interdisciplinary project collaboration. She has published extensively in leading international journals and conferences, with 124 documents, 3,189 citations and an h-index of 31, reflecting her academic influence. Recognized for her scholarly contributions, she has earned respect as a dedicated educator and researcher. In conclusion, Mrs. Jun Liu’s impactful research, global collaborations and commitment to addressing climate challenges position her as a deserving candidate for prestigious academic recognition.

Profile: Scopus

Featured Publications

1. Sun, Y., Liu, L., Jiang, L., Chen, Y., Zhang, H., Xu, X., & Liu, Y.* (2023). Unimolecular chiral stepping inversion machine. Journal of the American Chemical Society, 145(28), 16711.

2. Liu, J., Tian, Q., Huang, Y., Du, L., & Wang, L. (2011, June 24–26). Extraction of the corn planting area based on multi-temporal HJ-1 satellite data. The 19th International Conference on Geoinformatics, Shanghai, China. (Accession No. 20113614308210).

3. Liu, J., Tian, Q., Huang, Y., & Du, L. (2012). Dynamic monitoring of summer maize planting information for spatial and temporal variations in Huanghuaihai plain during 2000–2010. Spectroscopy and Spectral Analysis, 32(9), 2534–2539.

4. Liu, J., Tian, Q., Huang, Y., & Du, L. (2013). Monitoring phenology of summer maize in Huanghuaihai using remote sensing technology. Remote Sensing Information, 28(3), 85–90.

5. Liu, J., Tian, Q., Huang, Y., & Du, L. (2012, August 11–13). Extraction of summer maize using MODIS EVI time series in the Huanghuaihai plain. International Conference on Computer Science and Service System, Nanjing, China. (Accession No. 20130615981764).

Lili Wang | Environmental Conservation | Best Researcher Award

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Assoc. Prof. Dr. Lili Wang | Environmental Conservation | Best Researcher Award

Associate Professor | Zhejiang Sci-tech University | China

Assoc. Prof. Dr. Lili Wang is a highly accomplished scholar and researcher specializing in textile chemistry, dyeing, and finishing engineering. Serving as an Associate Professor at Zhejiang Sci-Tech University, she has established herself as a leading figure in the development of sustainable textile technologies. Her primary research focuses on ecological dyeing methods and the functionalization of natural polymers, with an emphasis on reducing environmental impact while enhancing textile performance. Assoc. Prof. Dr. Lili Wang has successfully led and contributed to multiple nationally and provincially funded research projects, particularly in the field of digital spray dyeing technology for polyester fabrics, which is recognized for its potential in energy conservation and carbon reduction. She has further demonstrated her innovative capacity by securing numerous invention patents, reflecting her ability to translate scientific research into practical applications. Her academic training, combined with postdoctoral experience in industry, enables her to integrate theoretical research with real-world textile solutions. Beyond her technical expertise, Assoc. Prof. Dr. Lili Wang is dedicated to advancing the global textile industry toward greener, more efficient practices. Her contributions highlight the importance of bridging academia and industry, making her an influential voice in shaping the future of sustainable textile science and engineering.

Publication Profile

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Education

Assoc. Prof. Dr. Lili Wang has built a strong academic foundation through a comprehensive educational journey across some of China’s leading institutions in textiles, chemistry, and materials science. She began her studies in materials science and engineering at the undergraduate level, where she gained fundamental knowledge in textile materials, fiber science, and engineering principles. This early academic training sparked her interest in exploring the chemistry of textiles and their applications in innovative and sustainable processes. Motivated to advance her expertise, she pursued graduate studies in chemistry, chemical engineering and biotechnology, where she deepened her understanding of advanced chemical reactions, polymer science, and their relevance to textile dyeing and finishing. Her doctoral training focused on the intersection of chemistry and textile applications, equipping her with the ability to conduct independent research and develop novel approaches to textile processing. To further strengthen her research profile, Assoc. Prof. Dr. Lili Wang undertook postdoctoral research in collaboration with industry, where she explored practical solutions for ecological dyeing and finishing technologies. This unique combination of academic rigor and industrial research experience has provided her with both theoretical depth and applied skills, enabling her to contribute meaningfully to advancing sustainable textile science and engineering.

Professional Experience

Assoc. Prof. Dr. Lili Wang has cultivated a career that bridges academic research, industrial application, and innovation in textile chemistry and ecological dyeing. At Zhejiang Sci-Tech University, she serves as an Associate Professor in the College of Textiles Science and Engineering, where she is actively engaged in teaching, research, and student mentorship. Her academic role involves guiding research in textile chemistry and dyeing, supervising projects focused on sustainable textile technologies, and fostering interdisciplinary collaboration. In addition to her university work, she has gained valuable industrial experience through postdoctoral research at Saintyear Holding Group Co., Ltd., where she applied her scientific expertise to real-world challenges in ecological dyeing and finishing. This dual experience has allowed her to integrate theoretical knowledge with practical solutions, ensuring that her research directly contributes to industrial innovation. Assoc. Prof. Dr. Lili Wang has successfully led and participated in major research projects funded by national and provincial foundations, focusing on energy-saving and eco-friendly textile processes. Her achievements include an impressive record of granted invention patents, reflecting her ability to transform scientific ideas into applied technologies. Through her professional journey, she has consistently demonstrated leadership, innovation, and a strong commitment to advancing sustainable practices in the textile industry.

Research Interest

Assoc. Prof. Dr. Lili Wang’s research interests are centered on advancing sustainable technologies in textile chemistry, dyeing, and finishing. She is particularly focused on developing new ecological dyeing methods that reduce water consumption, minimize energy use, and lower the carbon footprint of textile processing. One of her major areas of interest lies in digital spray dyeing for polyester fabrics, a cutting-edge approach recognized for its efficiency and environmental benefits. In addition, she explores the functionalization of natural polymers, aiming to create textiles with enhanced properties such as durability, antibacterial performance, and eco-compatibility. By integrating renewable resources with modern textile finishing techniques, her work contributes to the development of high-value and sustainable textile products. Assoc. Prof. Dr. Lili Wang also investigates interdisciplinary applications of polymer science, chemical engineering, and environmental chemistry to address industry challenges. Her research reflects a balance between innovation and responsibility, ensuring that technological advancements align with global sustainability goals. Through her projects, she seeks to create practical solutions that can be widely applied in the textile industry, ultimately promoting greener production models and contributing to the transformation of the global textile sector toward more sustainable and environmentally friendly practices.

Research Skills

Assoc. Prof. Dr. Lili Wang has developed a comprehensive set of research skills that combine advanced chemical knowledge, materials engineering expertise, and applied textile innovation. She is highly skilled in the design and optimization of textile dyeing processes with a focus on energy efficiency, water conservation, and environmental protection. Her technical expertise includes digital spray dyeing, ecological finishing methods, and the modification of polymers to enhance textile functionality. She is proficient in applying advanced analytical methods to evaluate dyeing performance, textile durability, and eco-friendly properties of treated fabrics. Assoc. Prof. Dr. Lili Wang also has strong project management skills, having successfully led and coordinated multiple national and provincial research projects funded by prestigious scientific foundations. Her ability to translate laboratory results into scalable industrial applications is evident in her portfolio of granted patents. In addition, she demonstrates expertise in interdisciplinary collaboration, bringing together principles of chemistry, chemical engineering, and textile science to create innovative solutions. Her research skills extend to experimental design, data analysis, and innovation development, ensuring that her work not only advances theoretical knowledge but also contributes practical technologies for the textile industry. This unique combination positions her as a versatile and impactful researcher in sustainable textile science.

Awards and Honors

Assoc. Prof. Dr. Lili Wang has received recognition for her outstanding contributions to the advancement of sustainable textile technologies. Her research achievements have been supported by major national and provincial funding bodies, reflecting the scientific significance and societal value of her work. She has secured competitive grants from the National Natural Science Foundation of China, the China Postdoctoral Science Foundation, and the Zhejiang Provincial Natural Science Foundation, demonstrating her strong research leadership and innovation capacity. Beyond funding recognition, her creativity and applied research outcomes are further highlighted by her impressive record of granted invention patents. These patents stand as a testament to her ability to translate theoretical knowledge into impactful technologies that address industrial needs. Her recognition is not limited to academic circles but extends to industrial collaborations, where her research outcomes contribute directly to advancing ecological dyeing and functional finishing practices. Assoc. Prof. Dr. Lili Wang’s honors reflect her commitment to developing environmentally responsible textile processes and her vision of promoting green innovation within the industry. These achievements underscore her role as a respected researcher, innovator, and academic leader, dedicated to shaping the future of textile engineering with sustainability and scientific excellence at the forefront.

Author Metrics

  • Total Documents Published: 60+

  • Total Citations: 2,740+

  • h-index: 30

  • i10-index: 60

These metrics reflect the significant academic impact and influence of Assoc. Prof. Dr. Lili Wang’s research in textile chemistry, ecological dyeing technologies, and polymer functionalization. Her work is widely cited in international journals, demonstrating both the quality and relevance of her scientific contributions to the global research community.

Publications Top Notes

1. Urea-free reactive printing of viscose fabric with high color performance for cleaner production
Year: 2021
Citations: 15

2. A novel quaternary ammonium triethanolamine modified polyester polyether for rapid wetting and penetration pretreatment for digital inkjet dyeing of polyester fabric
Year: 2025
Citations: 6

3. Organofluorosilicon modified polyacrylate with the unidirectional migration promotion of disperse dyes toward polyester fabric for wash-Free digital inkjet dyeing
Year: 2024
Citations: 6

4. Ecofriendly and durable flame-retardant cotton fabric based on alkyl/N/B/P modified meglumine with high efficiency
Year: 2023
Citations: 12

5. Ecofriendly dual-function cotton fabric with antibacterial and anti-adhesion properties based on modified natural materials
Year: 2024
Citations: 3

Conclusion

Assoc. Prof. Dr. Lili Wang has established herself as a dynamic academic and researcher whose career reflects the integration of scientific excellence, practical innovation, and environmental responsibility. With her strong foundation in chemistry, biotechnology, and materials science, she has advanced into a leading role in textile chemistry and sustainable dyeing technologies. Her focus on ecological dyeing and functionalization of natural polymers demonstrates her commitment to addressing pressing global challenges in textile production, such as energy consumption, water conservation, and pollution reduction. Through her leadership in nationally and provincially funded projects, she has contributed innovative solutions that align academic research with industrial applications, reinforcing the importance of sustainability in modern textiles. Her impressive portfolio of invention patents further illustrates her ability to translate research outcomes into practical technologies that benefit both the industry and society. Beyond technical contributions, Assoc. Prof. Dr. Lili Wang plays a vital role as an educator and mentor, inspiring the next generation of researchers in textile science. Her career path exemplifies how academic rigor, interdisciplinary collaboration, and a vision for sustainability can converge to shape the future of textile engineering. With her expertise and dedication, Assoc. Prof. Dr. Lili Wang continues to make meaningful contributions toward building a greener and more innovative textile industry.

 

Sandra Hervías-Parejo | Ecology | Best Researcher Award

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Dr. Sandra Hervías-Parejo | Ecology | Best Researcher Award

Postdoctoral Researcher at Mediterranean Institute for Advanced Studies(UIB-CSIC), Spain.

Dr. Sandra Hervías-Parejo is a leading island ecologist with expertise in biotic interactions, food webs, and the role of keystone species in ecosystem functioning. Her work focuses on how global change and invasive alien species alter ecological complexity and resilience, particularly in fragile island systems. Dr. Hervías-Parejo has pioneered multilayer ecological network frameworks that reveal the cascading effects of species loss. She integrates empirical fieldwork, mathematical modeling, and long-term ecological data to address biodiversity conservation challenges. With a research footprint across the Galapagos, Seychelles, Canaries, Tierra del Fuego, and Svalbard, she brings global insight into local conservation actions. Her landmark contributions include quantifying the role of missing data in multilayer network robustness, advancing the theory of “function keystoneness,” and integrating multilayer food web analysis into island biogeography. Dr. Hervías-Parejo has published 45 ISI-indexed articles, 93% in Q1 journals, and her studies have been cited over 675 times, earning her a Google Scholar H-index of 22. She is a frequent contributor to policy-related reports, international conferences, and top-tier academic journals. Her research aligns with global sustainability goals, especially those targeting biodiversity protection and climate action. With a strong leadership profile, she continues to mentor the next generation of ecologists and conservationists.

Publication Profile

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Education

Dr. Hervías-Parejo’s academic background reflects a deep and sustained commitment to ecological science and conservation. She earned her PhD in Ecology from the University of Murcia, Spain, in 2014, following years of field and theoretical research in ecological interactions and conservation biology. Her doctoral training built upon a prior Master’s degree in Invasive Species Management (2009), also at the University of Murcia, where she developed a keen interest in the ecological impacts of non-native species. Earlier, she completed a Certificate in Teaching Skills from the University of Granada (2006), supporting her pedagogical development and future teaching roles. Her academic journey began with a Degree in Biology (2004), which she undertook jointly at the University of Granada and the University of La Laguna in Tenerife—giving her first-hand exposure to island ecosystems that would become central to her career. This strong educational foundation, blending ecological theory, teaching methodologies, and applied conservation management, laid the groundwork for her later groundbreaking research on keystone species, food web networks, and ecosystem restoration. Her academic progression demonstrates a consistent focus on the interface between ecological science and real-world environmental challenges, particularly within vulnerable and complex island systems.

Professional Experience

Dr. Hervías-Parejo currently holds the position of Interim Substitute Professor in the Department of Botany at the University of Granada, Spain, a role she began on May 9, 2025. Her professional journey has been dynamic and internationally engaged, marked by high-impact postdoctoral appointments. From November 2022 to May 2025, she worked on a prestigious ERC Advanced Grant, which she left upon securing her current teaching role. Prior to that, from August 2020 to July 2022, she held a Vicenç Mut Postdoctoral Fellowship funded by the Government of the Balearic Islands (CAIB). Between 2018 and 2020, she contributed as a postdoctoral researcher at IMEDEA (Mediterranean Institute for Advanced Studies) in Spain. Her earlier international experience includes a postdoctoral position at the Charles Darwin Research Station in the Galapagos (2016–2017), where she gained critical insights into island ecology and conservation management. Throughout these roles, she contributed to and led major research efforts on biodiversity loss, network ecology, and conservation interventions. Her professional path illustrates a consistent evolution toward academic leadership, interdisciplinary collaboration, and impactful scientific inquiry across world-renowned ecological institutions.

Research Interest

Dr. Hervías-Parejo’s research interests center on the ecology of island systems, with a strong emphasis on biotic interactions, ecosystem restoration, and the effects of global environmental change. She specializes in food web theory, functional traits, and multilayer ecological networks, especially in the context of invasive species and keystone species dynamics. A defining theme of her work is understanding how species loss and ecological simplification affect biodiversity and function in fragile ecosystems. Her scientific curiosity extends to quantitative ecology, ecological modeling, and the application of multilayer networks to track and predict changes in community structure. Her fieldwork spans iconic archipelagos such as the Galapagos, Seychelles, Canary Islands, Svalbard, and Tierra del Fuego. In these systems, she investigates species hierarchies, pollination effectiveness, and avian-seabird ecology, linking fundamental research to conservation outcomes. Her interests also encompass human-mediated disturbances, particularly the role of alien species and the mechanisms by which they alter ecosystem resilience. These interdisciplinary and globally-relevant research topics underpin her contributions to environmental policy, ecological forecasting, and sustainable management strategies that aim to protect biodiversity amid escalating climate and anthropogenic pressures.

Research Skills

Dr. Hervías-Parejo possesses a comprehensive suite of research skills spanning empirical fieldwork, theoretical ecology, and quantitative modeling. She is a recognized innovator in the development and application of multilayer ecological networks, having pioneered methodologies to estimate interlayer edge weights, integrate spatiotemporal variability, and assess function keystoneness. Her technical toolkit includes network analysis, biodiversity metrics, statistical modeling, and ecological informatics, as well as proficiency in GIS-based habitat mapping and bioacoustics monitoring—notably for estimating populations of burrowing seabirds. She has also contributed novel insights into plant–pollinator networks, species interaction strength, and dietary analysis of invasive predators using ecological and statistical tools. Equally strong in field ecology, Dr. Hervías-Parejo has led biodiversity surveys, species monitoring programs, and ecological restoration assessments in remote and logistically challenging island environments. In the lab and office, she exhibits skill in data synthesis, hypothesis testing, and manuscript development, with a demonstrated ability to translate complex models into conservation applications. Her work is deeply collaborative, incorporating interdisciplinary tools to bridge the gap between fundamental science and practical conservation. These integrated research capabilities allow her to deliver high-impact insights on ecological resilience, species interactions, and restoration strategies.

Awards and Honors

Dr. Hervías-Parejo has achieved a remarkable track record in securing competitive research funding, totaling over €5.8 million, with more than €2.5 million acquired as principal investigator or lead coordinator. Her success includes prestigious programs such as the European Research Council (ERC) Advanced Grant, the Vicenç Mut Postdoctoral Fellowship, and other national and international funding bodies. These accomplishments reflect both scientific excellence and leadership in large, interdisciplinary teams. In recognition of her expertise, she has been invited as a reviewer for over 22 high-ranking SCI-indexed journals, including Nature Communications, Ecology Letters, Global Change Biology, and Journal of Applied Ecology. She also serves as an associate editor for Food Webs and the Management of Invasive Species Journal, and she is listed as a scientific expert in the Spanish State Research Agency’s Expert Collaborators Bank (BECA). Dr. Hervías-Parejo’s work has been featured in major policy-oriented publications and global media outlets such as Nature Portfolio. These accolades underscore her position as a thought leader in conservation science and affirm the societal relevance of her work, particularly in relation to the UN Sustainable Development Goals targeting biodiversity conservation and climate action.

Author Metrics

  • Total Citations: 679

  • h-index: 13

  • i10-index: 22

Publications Top Notes

1. Estimating population size of a nocturnal burrow-nesting seabird using acoustic monitoring and habitat mapping

  • Authors: S. Oppel, S. Hervías-Parejo, N. Oliveira, T. Pipa, C. Silva, P. Geraldes, M. Goh, et al.

  • Journal: Biodiversity Data Journal (Pensoft Publishers)

  • Year: 2014

  • Citations: 111

2. Assessing the impact of introduced cats on island biodiversity by combining dietary and movement analysis

  • Authors: S. Hervías, S. Oppel, F.M. Medina, T. Pipa, A. Díez, J.A. Ramos, et al.

  • Journal: Journal of Zoology

  • Year: 2013

  • Citations: 74

3. Studying the effects of multiple invasive mammals on Cory’s shearwater nest survival

  • Authors: S. Hervías, A. Henriques, N. Oliveira, T. Pipa, H. Cowen, J. Ramos, et al.

  • Journal: Biological Invasions

  • Year: 2012

  • Citations: 55

4. Spatial foraging segregation by close neighbours in a wide-ranging seabird

  • Authors: F.R. Ceia, V.H. Paiva, R.S. Ceia, S. Hervías, S. Garthe, J.C. Marques, et al.

  • Journal: Oecologia

  • Year: 2015

  • Citations: 46

5. Species functional traits and abundance as drivers of multiplex ecological networks: first empirical quantification of inter-layer edge weights

  • Authors: S. Hervías-Parejo, C. Tur, R. Heleno, M. Nogales, S. Timóteo, A. Traveset

  • Journal: Proceedings of the Royal Society 

  • Year: 2020

  • Citations: 35

6. Pollination effectiveness of opportunistic Galápagos birds compared to that of insects: From fruit set to seedling emergence

  • Authors: S. Hervías-Parejo, A. Traveset

  • Journal: American Journal of Botany

  • Year: 2018

  • Citations: 33

7. Throwing the baby out with the bathwater: does laurel forest restoration remove a critical winter food supply for the critically endangered Azores bullfinch?

  • Authors: R.S. Ceia, H.L. Sampaio, S.H. Parejo, R.H. Heleno, M.L. Arosa, J.A. Ramos, et al.

  • Journal: Biological Invasions

  • Year: 2011

  • Citations: 30

8. Tripartite networks show that keystone species can multitask

  • Authors: S. Timóteo, J. Albrecht, B. Rumeu, A.C. Norte, A. Traveset, C.M. Frost, et al.

  • Journal: Functional Ecology

  • Year: 2023

  • Citations: 24

9. Small size does not restrain frugivory and seed dispersal across the evolutionary radiation of Galápagos lava lizards

  • Authors: S. Hervías-Parejo, R. Heleno, B. Rumeu, B. Guzmán, P. Vargas, J.M. Olesen, et al.

  • Journal: Current Zoology

  • Year: 2019

  • Citations: 22

10. Dispersal of fern spores by Galápagos finches

  • Authors: S. Hervías-Parejo, J.M. Olesen, M. Nogales, A. Traveset, R. Heleno

  • Journal: Journal of Ornithology

  • Year: 2019

  • Citations: 16

Conclusion

Dr. Sandra Hervías-Parejo exemplifies a new generation of ecologists who combine theoretical innovation, field-based insight, and policy relevance. Her work advances the scientific frontier in island ecology, multilayer networks, and ecosystem resilience, while directly informing strategies for restoration and biodiversity protection. With extensive experience across renowned ecological hotspots and strong ties to global research networks, she operates at the intersection of ecological science and real-world conservation impact. Her publications, citations, editorial work, and international collaborations demonstrate a sustained commitment to excellence and leadership in environmental science. Notably, she maintains a consistent focus on training young scientists, fostering careers in academia, NGOs, and the environmental sector. Through her methodological breakthroughs, field innovations, and ability to frame local findings within global contexts, she has significantly contributed to our understanding of species interactions and ecological stability in the Anthropocene. Her integrated, interdisciplinary approach not only enhances ecological knowledge but also strengthens the practical capacity of society to address biodiversity loss and climate challenges. Dr. Hervías-Parejo’s profile reflects a balance of scientific rigor, creative inquiry, and collaborative spirit—qualities that position her among the foremost voices in contemporary ecology.

 

Mohammad Sadegh Shakeri | Green Technologies | Green Technology Award

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Dr. Mohammad Sadegh Shakeri | Green Technologies | Green Technology Award

Associated Professor at Department of Magnetic Materials and Nanostructures, NZ34, Division of Condensed Matter Physics, NO3, Institute of Nuclear Physics Polish Academy of Sciences, Krakow, Poland, 2023-now, Poland.

Dr. Mohammad Sadegh Shakeri is an Assistant Professor at the Institute of Nuclear Physics, Polish Academy of Sciences, specializing in magnetic materials, nanostructures, and condensed matter physics. His work spans materials synthesis, computational modeling, and experimental characterization, contributing to advanced ceramics, biomaterials, and photocatalysts. A recipient of multiple international awards and research grants, he actively collaborates with leading global institutions.

Publication Profile

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Educational Details

Dr. Mohammad Sadegh Shakeri holds a Ph.D. in Materials Science and Engineering from the Materials & Energy Research Centre in Iran (2012–2017). He earned his M.Sc. from the University of Tabriz (2009–2012) and a B.Sc. from Sahand University of Technology (2004–2009), both in Materials Science and Engineering. His early academic foundation was built at Emam Khomeini High School and Rasoul-e-Akram Pre-University in Songhor, Kermanshah, Iran.

Professional Experience

Dr. Shakeri is an Assistant Professor at the Department of Magnetic Materials and Nanostructures, Institute of Nuclear Physics, Polish Academy of Sciences, Krakow, Poland. He has previously served as a postdoctoral researcher at the same institution (2021–2023) and held visiting researcher positions at the University of Duisburg-Essen, Germany (2023), and the University of Jean Monnet, France (2022). His industry experience includes working as a Research & Development Specialist at Fartak Sanat Rayan Mihan Co. (2017–2020). Additionally, he has contributed to academia as a lecturer at Faradars Virtual University, Tehran, Iran (2020–2021) and has served as a reviewer for reputable scientific journals, including Journal of Alloys and Compounds and Scientific Reports (Nature).

Research Interest

Dr. Shakeri’s research focuses on magnetic materials, nanostructures, and condensed matter physics, with expertise in ultra-high temperature ceramics (UHTCs), photocatalyst materials, biomaterials, and laser-matter interactions. His work integrates density functional theory (DFT), molecular dynamics (MD) simulations, and experimental materials characterization to develop advanced materials for energy, biomedical, and industrial applications.

Author Metrics & Contributions

Dr. Shakeri has authored numerous peer-reviewed publications and has been awarded multiple prestigious research grants, including funding from the Polish National Science Center (NCN), the European Funds for Regional Development, and the Central European Research Infrastructure Consortium (CERIC-ERIC). He is an active member of the European Ceramics Society, CECAM, and FIT4NANO. His scientific contributions have been widely recognized, earning him accolades such as the Polish Ministry of Science and Education Scholarship for Outstanding Young Scientists (2023) and the PSRS Award from the Polish Synchrotron Radiation Society (2024).

Top Noted Publication

  1. Optical Band Gap and Spectroscopic Study of Lithium Alumino Silicate Glass Containing Y³⁺ Ions

    • Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy

    • Citations: 96 (2011)

    • Summary: This study investigates the optical band gap and spectroscopic properties of lithium alumino silicate glass doped with Y³⁺ ions, revealing its potential applications in optoelectronics and photonic devices.

  2. Electrochemical and Cellular Behavior of Ultrafine-Grained Titanium In Vitro

    • Journal: Materials Science and Engineering: C

    • Citations: 88 (2014)

    • Summary: Examines the electrochemical and biocompatibility properties of ultrafine-grained titanium, highlighting its suitability for biomedical implants.

  3. Nano-Structured Yttria-Stabilized Zirconia Coating by Electrophoretic Deposition

    • Journal: Applied Surface Science

    • Citations: 50 (2013)

    • Summary: Demonstrates an advanced method for depositing yttria-stabilized zirconia coatings, improving the material’s thermal and mechanical stability.

  4. Effect of Hydroxyapatite Coating on Corrosion Behavior and Nickel Release of NiTi Shape Memory Alloy

    • Journal: Materials and Corrosion

    • Citations: 42 (2014)

    • Summary: Investigates how hydroxyapatite coatings enhance the corrosion resistance and biocompatibility of NiTi shape memory alloys, making them more suitable for medical applications.

  5. Effect of Surface Modification by Nitrogen Ion Implantation on Electrochemical and Cellular Behavior of Super-Elastic NiTi Shape Memory Alloy

    • Journal: Journal of Materials Science: Materials in Medicine

    • Citations: 37 (2014)

    • Summary: Highlights the impact of nitrogen ion implantation on the electrochemical and biological performance of NiTi alloys.

  6. The Influence of Ni₄Ti₃ Precipitates Orientation on Two-Way Shape Memory Effect in a Ni-Rich NiTi Alloy

    • Journal: Journal of Alloys and Compounds

    • Citations: 37 (2009)

    • Summary: Explores how the orientation of Ni₄Ti₃ precipitates affects the shape memory behavior of NiTi alloys.

  7. Optical Properties of Transparent Glass–Ceramics Containing Lithium–Mica Nanocrystals: Crystallization Effect

    • Journal: Materials Research Bulletin

    • Citations: 35 (2013)

    • Summary: Studies the crystallization behavior and optical properties of lithium–mica-based glass-ceramics for photonic applications.

  8. High Microwave Absorption of Nano-Fe₃O₄ Deposited Electrophoretically on Carbon Fiber

    • Journal: Materials and Manufacturing Processes

    • Citations: 33 (2016)

    • Summary: Investigates Fe₃O₄-coated carbon fibers for high-performance microwave absorption applications.

  9. Influence of Fe₃O₄ Nanoparticles in Hydroxyapatite Scaffolds on Primary Human Fibroblast Cell Proliferation

    • Journal: Journal of Materials Engineering and Performance

    • Citations: 33 (2016)

    • Summary: Evaluates the biocompatibility of Fe₃O₄-enhanced hydroxyapatite scaffolds for biomedical applications.

  10. Characterization and Optical Properties of Mechanochemically Synthesized Molybdenum-Doped Rutile Nanoparticles and Their Electronic Structure Studies by Density Functional Theory

  • Journal: Materials Today Chemistry

  • Citations: – (Recent)

  • Summary: Integrates experimental and computational methods to analyze molybdenum-doped rutile nanoparticles for optoelectronic applications.

Conclusion

Dr. Mohammad Sadegh Shakeri is a strong candidate for the Research for Green Technology Award due to his pioneering work in advanced materials, photocatalysis, and sustainable energy applications. His research aligns with green technology advancements, making significant contributions to eco-friendly materials and clean energy solutions. Strengthening his focus on real-world green technology applications and industry collaborations will further solidify his position as a leading researcher in this field.