Dr. Anup Debnath | Experimental Physics | Editorial Board Member

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Dr. Anup Debnath | Experimental Physics | Editorial Board Member

Pachhunga University College | India

Dr. Anup Debnath is a materials physicist specializing in two-dimensional materials, magnetic nanostructures, transition-metal dichalcogenides, and MXene-based functional systems. His research focuses on understanding growth mechanisms, interfacial charge-transfer phenomena, and structure–property–performance relationships in emerging 2D architectures for electronic, magnetic, and energy-storage applications. He has developed strong expertise in advanced synthesis routes including hydrothermal, solvothermal, reflux, thermolysis, and chemical vapour deposition techniques for preparing high-quality TMDs, non-van der Waals magnets, and MXene derivatives. His experimental strengths extend across a broad spectrum of characterization tools such as XRD, Raman spectroscopy, XPS, TEM, AFM, SQUID magnetometry, PPMS measurements, UV-Vis spectroscopy, and FTIR, complemented by theoretical skills in Rietveld refinement and DFT-based calculations using MAUD and CASTEP. Dr. Debnath’s research contributions include revealing ferromagnetic and ferrimagnetic ordering in chemically synthesized 2D systems, designing MXene-integrated heterostructures, developing high-performance electrocatalysts, and engineering nanomaterials for hydrogen evolution, photothermal conversion, and supercapacitor applications. His publications in leading journals cover diverse topics ranging from magnetic coupling in low-dimensional systems to coercivity enhancement, phase engineering of TMDs, photothermal nanorods, hybrid perovskites, and advanced MXene composites. He has also contributed to conference proceedings and presented widely at national and international scientific platforms, earning recognition for excellence in both poster and oral presentations. His scholarly footprint continues to grow, currently reflected by 228 citations across 205 documents, 19 publications, and an h-index of 7, underscoring his expanding impact in the fields of experimental condensed matter physics and nanomaterials research.

Featured Publications

(2025). Vertically tilted SnS₂ grown on highly conductive Ti₃C₂Tₓ for electrochemical energy storage applications. Journal of Energy Storage.

 

David Mínguez García | Materials Science | Best Researcher Award

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Assist. Prof. Dr. David Mínguez García | Materials Science | Best Researcher Award

Assistant Professor at Universitat Politècnica de València, Spain.

A dedicated researcher in the field of smart and sustainable textiles with expertise in electrospinning, nanofibres, and textile-based sensors. Contributions span functional materials for healthcare, circular economy applications, and intelligent fabric systems. Demonstrated excellence through peer-reviewed publications, active participation in international research projects, and collaboration across multidisciplinary teams. Recognized for combining innovation with eco-conscious design in next-generation textile technologies. Committed to scientific progress, sustainable development, and fostering young talent in technical fields.

Profile

Scopus

Googl Scholar

🎓 Education 

Holds advanced degrees in engineering and material sciences with a specialization in smart and functional textiles. Academic training emphasized nanomaterial synthesis, fiber engineering, and sustainable design. Participated in international exchanges to broaden technical knowledge and gain practical experience in advanced textile laboratories. Strong foundation in both theoretical research and experimental development, contributing to multidisciplinary advancements in smart fabrics and environmental applications.

🧪 Experience 

Extensive research and academic experience in functional and intelligent textile development. Participated in multiple funded projects addressing material sustainability, biodegradability, sensor integration, and environmental impact reduction. Work bridges laboratory innovation with industry needs, focusing on real-world applications such as wearable technology, biomedical materials, and eco-efficient fiber systems. Experience includes supervising research teams, coordinating lab activities, and delivering lectures on advanced textile processes.

🏅 Awards & Honors 

Recipient of awards and recognitions for innovative contributions to smart textile research and sustainability. Projects have been acknowledged for their societal and technological relevance in academic and applied settings. Served as speaker and contributor at various international textile science conferences. Supported international collaboration through mobility grants and selected memberships in textile research platforms. Recognized for promoting sustainability-driven design and applied research in functional materials.

🔬 Research Focus 

Focused on electrospun nanofibre materials, smart textiles, and circular design methodologies. Research involves development of biodegradable and functional fibres for sensing, antimicrobial, and environmental uses. Integration of advanced fabrication techniques with eco-design principles to support sustainable material lifecycles. Current investigations include low-impact processing methods, microplastic mitigation strategies, and textile-based sensing technologies for real-time monitoring. Aims to advance the scientific basis for intelligent and sustainable fabric solutions.

 Conclusion

With a strong foundation in advanced textile research, a portfolio of impactful innovations, and active engagement in international sustainability initiatives, the candidate demonstrates clear potential as a leading researcher in their field. Their work aligns with global scientific priorities, particularly in sustainable development and smart material technologies. Given the scope and quality of their contributions, they are highly recommended as a deserving recipient of the Best Researcher Award.

📝Publications 

  1. Understanding and addressing the water footprint in the textile sector: a review
    2024 | D Mikucioniene, D Mínguez-García, MR Repon, R Milašius, G Priniotakis, … | 13

  2. PVA nanofibers as an insoluble pH sensor
    2023 | D Mínguez-García, I Montava, M Bonet-Aracil, J Gisbert-Payá, … | 9

  3. Liquid oil trapped inside PVA electrospun microcapsules
    2022 | D Mínguez-García, N Breve, L Capablanca, M Bonet-Aracil, P Díaz-García, … | 4

  4. Thermo-regulated cotton: enhanced insulation through PVA nanofiber-coated PCM microcapsules
    2024 | D Dirlik-Uysal, D Mínguez-García, E Bou-Belda, J Gisbert-Payá, … | 3

  5. Adhesión de nanofibras a distintos tejidos de calada
    2022 | D Mínguez García | 2

  6. Emulsion Nanofibres as a Composite for a Textile Touch Sensor
    2023 | D Mínguez-García, P Díaz-García, J Gisbert-Payá, M Bonet-Aracil | 1

  7. Environmental Impact of Nanosilver on the Biodegradability of Polylactic Acid Nonwovens
    2025 | A Sánchez-Martínez, D Mínguez-García, P Díaz-García, J Gisbert-Payá

  8. VIRTUAL REALITY FOR SUSTAINABLE FASHION EDUCATION: THE FASHION. ED PROJECT EXPERIENCE.
    2025 | I Liliana, T Simona, G Sabina, C Tudor, DG Pablo, MG David

  9. SMART CHROMIC DRESSING FOR NON-INVASIVE GLUCOSE MONITORING: A THEORETICAL DESIGN.
    2025 | MG Inés, MG David, M Ignacio, BOUB Eva

  10. Funcionalización de textiles mediante encapsulación por electrohilatura
    2024 | D Mínguez García

  11. Obtención de nanofibras mediante electrohilatura
    2023 | MA Bonet Aracil, D Mínguez García

  12. Variables del proceso de electrohilatura
    2023 | MA Bonet Aracil, D Mínguez García

  13. INFLUENCE OF TEMPERATURE ON THE PREPARATION OF ORANGE OIL EMULSION ELECTROSPINNING MICROCAPSULES
    2023 | D Mínguez-García, L Capablanca, P Díaz-García, …

  14. Nanofibras sobre sustratos textiles
    2022 | D Mínguez-García, L Capablanca, I Montava-Seguí, P Díaz-García

  15. Desarrollo de un gorro hipotérmico y pañuelo oncológico para la prevención de la alopecia provocada por la quimioterapia
    2020 | D Mínguez García

  16. SMART CHROMIC DRESSING FOR NON-INVASIVE GLUCOSE MONITORING: A THEORETICAL DESIGN
    (Year not specified, likely duplicate of 2025) | I Martínez-González, D Mínguez-García, I Montava, …

  17. FIBER CROSS-SECTION INFLUENCE ON THE DEPOSITION OF NANOFIBERS ON TEXTILE WEAVED STRUCTURES
    (Year not specified) | MG David, C Lucía, M Ignacio, DG Pablo

 

 

Nisrine Hammi | Materials science | Women Researcher Award

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Dr. Nisrine Hammi | Materials science | Women Researcher Award

Associate Professor | Anhui Normal University, China

Nisrine Hammi is a materials chemist and associate professor at Anhui Normal University, China, specializing in hybrid porous materials, metal-organic frameworks (MOFs), and green chemistry; fluent in Arabic, French, and English, she has completed international research training in France, Spain, and Morocco, and is recognized for her impactful contributions to sustainable material design and environmental catalysis, evidenced by prestigious publications and an SCF thesis award in 2020.

Profile

Scopus

🎓 Education

Hammi earned her PhD (2016–2020) in Materials Chemistry from University of Lille (France) and Abdelmalek Essaâdi University (Morocco) focusing on MOF-polysaccharide composites; she completed her Master’s in Energy & Environmental Chemistry (2013–2015) at University of Lille; received her Engineering degree in Materials Chemistry (2015–2017) from EuroMed University of Fez; and obtained her Bachelor’s in Chemistry & Physico-Chemistry of Materials (2010–2013) from Sidi Mohamed Ben Abdellah University.

🧪 Experience

Currently serving as Associate Professor at Anhui Normal University (2023–present), Hammi previously worked as a Postdoc at CNRS-Chevreul Institute (France, 2021), interned at Polytechnic University of Valencia (Spain, 2020), and Institut Charles Gerhardt (France, 2017); her roles span synthesis of MOF-based catalysts, porous aerogels, and green materials, supported by early professional experience as a chemical engineer at EuroMed University (2015–2017) developing polysaccharide-derived materials.

🏅 Awards & Honors

Nisrine Hammi received the 2020 Thesis Prize by the Société Chimique de France (SCF) recognizing her Ph.D. as one of the best in Northern France; her international recognition also includes authorship in high-impact journals, collaborative patents, and conference presentations across Europe, underscoring her innovative contributions in eco-friendly materials, catalysis, and nanotechnology.

🔬 Research Focus

Hammi’s research explores sustainable synthesis of hybrid materials—particularly MOFs, chitosan composites, and porous gels—for applications in catalysis, pollutant adsorption, CO₂ capture, wound healing, and energy storage; her work emphasizes eco-friendly, bio-derived routes using sol-gel chemistry, supercritical CO₂, and self-assembly for shaping advanced nanomaterials with high surface areas and tunable functionalities.

Conclusion

Dr. Nisrine Hammi is an outstanding candidate for the Women Researcher Award. Her remarkable contributions to sustainable material chemistry, proven publication record, patent innovation, and international academic presence make her highly deserving. With minor enhancements in global outreach and mentoring roles, she has the potential to be a transformative force in future material science advancements.

Publication

  • Self-assembly synthesis of Cu-modified urchin flower like graphitic carbon nitride for efficient nitrophenol reduction, 2025, N. Hammi* et al.

  • Evaporation-Induced Reticular Growth of UiO-66_NH2 in Chitosan Films: Adsorption of Iodine, 2025, N. Hammi* et al.

  • Green Synthesis of MOF-based textile composites for the degradation of a chemical warfare agent simulant, 2024, N. Hammi et al.

  • Enhanced Gas Adsorption in HKUST-1@Chitosan Aerogels, Cryogels, and Xerogels: An Evaluation Study, 2023, N. Hammi* et al.

  • Boron nitride embedded in chitosan hydrogel as hydrophobic, promising metal-free, sustainable antibacterial materials, 2023, N. Hammi et al.

  • Hierarchically porous ZIF-67/chitosan beads with high surface area and strengthened mechanical properties: Application to CO2 storage, 2023, N. Hammi* et al.

  • Glassy-like Metal Oxide Particles Embedded on Micrometer Thicker Alginate Films as Promising Wound Healing Nanomaterials, 2022, N. Hammi et al.

  • Shaping MOF Oxidation Catalysts through Structure Directing Growth Inside of Chitosan Aerogel Microspheres, 2022, N. Hammi et al.

  • Sequestration of copper nanoparticles on nitrogen-containing carbon framework through pyrolysis of cross-linked chitosan: preparation and catalytic hydrogenation of unsaturated olefins and N-heteroarenes, 2022, N. Hammi et al.

  • Glassy-like Metal Oxide Particles Embedded on Micrometer Thicker Alginate Films as Promising Wound Healing Nanomaterials, 2022, N. Hammi et al.

  • Antimicrobial effect of chitosan films on food spoilage bacteria, 2021, N. Hammi et al.

  • Nanostructured metal Oxide@Carbon dots through sequential chitosan templating, twin growth and carbonisation, 2021, N. Hammi et al.

  • Phyllosilicate-derived Nickel–cobalt Bimetallic Nanoparticles for the Catalytic Hydrogenation of Imines, Oximes and N-heteroarenes, 2020, N. Hammi et al.

  • Chitosan as a sustainable precursor for nitrogen-containing carbon nanomaterials: synthesis and uses, 2020, N. Hammi et al.

  • Polysaccharide Templated Biomimetic Growth of Hierarchically Porous Metal-Organic Frameworks, 2020, N. Hammi et al.

  • Supramolecular chemistry driven preparation of nanostructured, transformable and biologically-active Chitosan-clustered metal oxide bioplastics, 2019, N. Hammi et al.

 

Xueqing Xu | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Xueqing Xu | Materials Science | Best Researcher Award

Materials Science |  associate professor at Northwest Normal University , China

Xueqing Xu is a researcher and lecturer at the School of Chemistry and Chemical Engineering, Northwest Normal University. She completed her Ph.D. at Harbin Institute of Technology in 2021, where she gained extensive knowledge in the field of chemistry and material science. Xu’s primary focus is the design of multifunctional MOF (Metal-Organic Framework)-based nano/micromaterials with a specific emphasis on their applications in electromagnetic wave absorption/shielding and photocatalysis. These innovative materials have significant potential in various industries, including environmental protection and energy conservation. As a dedicated scholar, Xu continues to contribute to the scientific community through her ongoing research and publications in prestigious journals. Her work has helped pave the way for more sustainable and efficient solutions in the realm of material science.

Publication Profile

Scopus

Educational Background 🎓📚

Xueqing Xu earned her Ph.D. in Chemistry from Harbin Institute of Technology in 2021. During her doctoral studies, she focused on the development and applications of Metal-Organic Frameworks (MOFs) for a variety of uses, including electromagnetic wave absorption and photocatalysis. Prior to her Ph.D., she completed a bachelor’s and master’s degree in Chemistry, gaining a strong foundation in material science. Her education has provided her with comprehensive knowledge in chemical engineering, materials chemistry, and nanotechnology, which has greatly contributed to her current research trajectory. At present, she is a lecturer at Northwest Normal University, where she imparts her expertise to undergraduate and graduate students while continuing her research on advanced functional materials.

 Experience 🔬📖

After completing her Ph.D. at Harbin Institute of Technology, Xueqing Xu took on the role of lecturer at the School of Chemistry and Chemical Engineering, Northwest Normal University. As a lecturer, Xu combines her research pursuits with teaching responsibilities, fostering a dynamic learning environment for students. Her research experience includes investigating the synthesis and application of MOF-based nano/micromaterials, with a particular focus on their electromagnetic wave absorption and photocatalytic properties. She has collaborated with experts in her field to further her understanding of materials chemistry. Xu’s professional experience is also marked by her active participation in scientific conferences, where she shares her research findings. Her career reflects a strong commitment to advancing material science and making practical contributions to sustainability and environmental science.

Honors & Awards 🏆🎓

Throughout her academic career, Xueqing Xu has earned several honors for her dedication to research and innovation in the field of chemistry. In addition to receiving her Ph.D. from Harbin Institute of Technology in 2021, she has published several influential papers in peer-reviewed journals, earning recognition within the scientific community. While she is still early in her academic career, her research in electromagnetic wave absorption and photocatalysis has already shown promise and led to collaborations with top-tier institutions. Xu’s groundbreaking work with multifunctional MOF-based nano/micromaterials has the potential to revolutionize various sectors, including environmental and energy industries. Her contributions to material science have set her on a trajectory for continued recognition, including future awards in materials research, environmental science, and nanotechnology.

Research Interests 🔍📊

Xueqing Xu’s research interests revolve around the design and application of multifunctional Metal-Organic Framework (MOF)-based nano/micromaterials. Specifically, her work focuses on developing materials for electromagnetic wave absorption and shielding, with potential applications in communications and environmental protection. Additionally, Xu is exploring the use of these materials in photocatalysis, aiming to address critical challenges in environmental remediation and energy conservation. Her research aims to design highly efficient, sustainable, and cost-effective materials for these applications. Xu’s ongoing work emphasizes the importance of functional material design for practical solutions in industrial settings. By understanding the interaction between electromagnetic waves and materials, her research could pave the way for better technologies in electromagnetic compatibility and pollution control. Her contributions are important not only to theoretical chemistry but also to the real-world applications of advanced materials.

Publications📚

Title: Boosting the photocatalytic benzylamine oxidation and Rhodamine B degradation using Z-scheme heterojunction of NiFe2O4/rGO/Bi2WO6

Authors: H. Xi, Hui; H. Wang, Hui; D. Liu, Dan; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 0

Year: 2025

Title: Fabrication of Z-scheme heterojunction of UCN/BWO for selective photocatalytic benzylamine oxidation

Authors: H. Xi, Hui; X. Xu, Xueqing; Q. Yang, Qian; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 1

Year: 2024

Title: Synthesis of Zn0.2Cd0.8S/MoS2/rGO photocatalyst for efficient solar-driven selective organic conversion

Authors: H. Xi, Hui; B. Lv, Bolin; Q. Yang, Qian; Z. Yang, Zhiwang; Z. Lei, Ziqiang

Citations: 1

Year: 2024

Conclusion :

Dr. Xueqing Xu’s exceptional contributions to the development of multifunctional materials for electromagnetic wave absorption and photocatalysis, her academic excellence, and her passion for research and teaching position her as a highly deserving nominee for the Best Researcher Award. Her work holds significant potential for advancing both academic knowledge and practical applications, particularly in energy and environmental fields, making her an outstanding choice for this prestigious recognition.