Xilian Xu | Nanotechnology and Materials Science | Research Excellence Award

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Dr. Xilian Xu | Nanotechnology and Materials Science | Research Excellence Award

Lecturer | Zhejiang University of Science and Technology | China

Dr. Xilian Xu is an accomplished researcher with a strong scholarly impact, evidenced by 2,289 Scopus citations, 38 peer-reviewed publications, and an h-index of 25. His research portfolio centers on high-quality journal articles, conference contributions, and scholarly outputs that advance fundamental and applied science. Dr. Xilian Xu’s work demonstrates consistent contributions to innovative research themes, addressing complex scientific questions through rigorous experimental design and analytical methodologies. He has actively contributed to competitive research projects and funded programs, supporting translational and interdisciplinary research outcomes. His scholarly activities include research findings with measurable academic and societal impact, reflected in citation performance and journal visibility. Dr. Xilian Xu has also contributed to innovation-driven R&D activities, strengthening knowledge transfer and applied research potential. In addition, he has provided professional service as a peer reviewer and editorial contributor, supporting research quality and integrity within the scientific community. His research achievements and recognitions underscore sustained excellence and influence in his field.

Research Metrics (Scopus)

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View Scopus Profile

Featured Publications

Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

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Dr. Peijia Bai | Nanotechnology and Materials Science | Best Researcher Award

Assistant Research Fellow | Beihang University | China

Dr. Peijia Bai is an emerging materials scientist whose research significantly advances high-efficiency thermal management, electrothermal conversion, and radiative cooling technologies. His work centers on electrocaloric materials and devices, ultrafast-response phase-change materials (PCMs), thermal system design, and protective color radiative-cooling coatings. With a strong focus on bridging fundamental materials science with practical applications, he has contributed to establishing next-generation energy-efficient cooling strategies and improving heat-dissipation performance for electronic and aerospace systems. Dr. Peijia Bai has published more than 30 peer-reviewed journal articles across leading platforms including Advanced Materials, Nature Communications, Science, and Joule, with over 812 Scopus citations, 24 documents and an h-index of 14. His publications include more than 10 papers as first or corresponding author, highlighting his prominent role in driving independent innovations. He has also contributed to one research monograph and authored multiple high-impact conference papers that extend his work to global scientific communities. A major contribution of his research is the development of a standardized electrothermal-effect measurement protocol, which has been widely adopted by both academia and industry. This standardized method has been cited extensively in top-tier journals and is now considered an important benchmark for evaluating electrothermal device performance. His work has also yielded seven patented technologies covering thermal-functional materials and device architectures, demonstrating strong translational potential. Dr. Peijia Bai has led and contributed to multiple funded research projects related to thermal management materials, advanced cooling devices, and energy-conversion technologies. His innovations have earned him the prestigious SAMPE International Award and recognition within professional societies such as the Zhejiang Society for Materials Progress. He also serves on the young editorial boards of cScience and Renewable and Sustainable Energy, reflecting his growing influence in the field. Dr. Peijia Bai’s research continues to advance innovative thermal strategies, contributing impactful solutions for sustainable energy technologies, aerospace materials, and advanced electronic systems.

Profiles: Scopus | ORCID | ResearchGate

Featured Publications

1. Bai, P., Yang, Q., & Yu, S. (2025). Electrocaloric refrigeration utilizing lead-free multilayer ceramics with high heat transfer efficiency. Applied Thermal Engineering. https://doi.org/10.1016/j.applthermaleng.2025.128927

2. Bai, P., Yang, Q., & Yu, S. (2025). Integration of efficient photothermal and flexible solid-solid PCM for personal thermoregulation in cold environments. iScience. https://doi.org/10.1016/j.isci.2025.114032

3. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhang, D., & Ma, R. (2025). Flexible electrocaloric polymer stack driven by one AA battery for highly efficient personalized thermoregulation. Nano Letters, 25. https://doi.org/10.1021/acs.nanolett.5c03730

4. Wang, G., Bai, P., Yuan, S., Bo, Y., Zhou, Z., Zhang, D., & Ma, R. (2025). Highly efficient cooling via synergistic electro‐thermal phase changes. Advanced Materials. https://doi.org/10.1002/adma.202506006

5. Ma, W., Liu, X., Yang, T., Wang, J., Qiu, Z., Cai, Z., Bai, P., Ji, X., & Huang, Y. (2025). Strong magnetic–dielectric synergistic gradient metamaterials for boosting superior multispectral ultra‐broadband absorption with low‐frequency compatibility. Advanced Functional Materials. https://doi.org/10.1002/adfm.202314046

Sofia Teixeira | Nanotechnology and Materials Science | Editorial Board Member

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Dr. Sofia Teixeira | Nanotechnology and Materials Science | Editorial Board Member

Senior Researcher | Tyndall National Institute | Ireland

Dr. Sofia Teixeira is a nanotechnology-focused researcher whose work bridges advanced materials science, biomedical engineering, and micro/nanofabrication. Her research background centers on the design and development of nanoscale sensing platforms capable of detecting disease-associated biomolecules with high sensitivity and selectivity. Trained in nanotechnology and electrochemical sensing, she has contributed to innovations in biomedical devices, electronic materials, and diagnostic interfaces, with a strong emphasis on translational applications that support early disease detection. Her research outputs include peer-reviewed journal publications, conference communications, and technology-driven studies exploring functional nanomaterials, biomarker recognition systems, and bio-electronic interfaces. With 89 citations, 4 research documents, and an h-index of 3, her contributions reflect an emerging yet impactful presence in the fields of nanosensors, biomaterials, and applied biotechnology. She has also advanced fabrication protocols using micro- and nanofabrication techniques, contributing to improved device performance, reproducibility, and real-world applicability. Dr. Sofia Teixeira has been involved in multidisciplinary R&D efforts linked to biomedical diagnostics, electrochemical sensor optimization, and nanostructured material design. Her work frequently integrates chemical engineering, electrochemistry, and medical biotechnology, positioning her research within critical domains such as point-of-care diagnostics, biosensing technologies, and health-related nanotechnology. She has participated in collaborative research initiatives and has contributed to the scientific community through reviewer service and research dissemination activities. Her innovations in nanoscale detection platforms and biomedical materials continue to support the advancement of next-generation diagnostic technologies and applied sensor research.

Profiles: Scopus | ORCID | Google Scholar | ResearchGate | Loop 

Featured Publications

  • Azzopardi, E., Lloyd, C., Teixeira, S. R., Conlan, R. S., & Whitaker, I. S. (2016). Clinical applications of amylase: Novel perspectives. Surgery, 160(1), 26–37.

  • Teixeira, S., Burwell, G., Castaing, A., Gonzalez, D., Conlan, R. S., & Guy, O. J. (2014). Epitaxial graphene immunosensor for human chorionic gonadotropin. Sensors and Actuators B: Chemical, 190, 723–729.

  • Teixeira, S., & Sampaio, P. (2013). Food safety management system implementation and certification: Survey results. Total Quality Management & Business Excellence, 24(3–4), 275–293.

  • Teixeira, S., Conlan, R. S., Guy, O. J., & Sales, M. G. F. (2014). Label-free human chorionic gonadotropin detection at picogram levels using oriented antibodies bound to graphene screen-printed electrodes. Journal of Materials Chemistry B, 2(13), 1852–1865.

  • Berbel-Filho, W. M., Berry, N., Rodríguez-Barreto, D., Teixeira, S., … (2020). Environmental enrichment induces intergenerational behavioural and epigenetic effects on fish. Molecular Ecology.

 

Brahma Singh | Nanotechnology and Materials Science | Best Researcher Award

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Dr. Brahma Singh | Nanotechnology and Materials Science | Best Researcher Award

Senior Principal Scientist | CSIR – National Botanical Research Institute (NBRI) | India

Dr. Brahma Singh is a highly cited researcher in herbal nanobiotechnology, phytochemistry, microbial metabolomics, and natural-product–based therapeutics. With Scopus 6,632+ citations, 514+ cumulative journal impact factor, h-index 41, and 88+ Scopus-indexed documents, his work significantly advances plant-derived bioactives, nanodelivery systems, and biomedical applications. His research focuses on the bio-prospection of phytochemicals, metabolomics of plants and microbes, and the development of nano-enabled herbal formulations to enhance bioavailability, anti-inflammatory potential, antimicrobial efficacy, and immunomodulatory responses. He has pioneered several innovations targeting quorum sensing, biofilm inhibition, microbial virulence, oxidative stress, cancer therapeutics, and nanobiomaterial engineering. Dr. Brahma Singh has authored numerous high-impact publications in leading journals such as Biotechnology Advances, Trends in Biotechnology, Advanced Functional Materials, ACS Applied Bio Materials, Food Chemistry, Scientific Reports, Cancer and Metastasis Reviews, and Journal of Ethnopharmacology. Many of his articles address critical biomedical challenges, including COVID-19 inflammatory pathways, diabetic wound healing, gut microbiota modulation, and lichen- or plant-derived anticancer compounds. His research findings have been widely recognized for introducing bio-inspired nanoparticles, novel glycobiotechnology approaches, and sustainable valorization of agricultural waste. He holds 13 patents spanning herbal formulations, antimicrobial gels, nanocompositions, bioavailable curcumin technologies, dental care products, wound-healing biomaterials, and nutraceutical innovations. Dr. Brahma Singh has also developed 16 herbal technologies, including anti-fungal gels, polyherbal toothpaste, antioxidant supplements, advanced sanitizers, nanocoatings, anti-acne gels, and herbal hydrogel therapies-15 of which have been successfully transferred to industry.As an active contributor to the scientific community, he has published one edited book, nine book chapters, and serves on editorial boards of reputed journals including Scientific Reports, PLoS ONE, Frontiers in Fungal Biology, and others. His research excellence has been recognized through major scientific awards and fellowships, cementing his leadership in natural product biotechnology, herbal nanomedicine, and translational phytopharmaceutical R&D.

Profiles: Scopus | ResearchGate | Loop

Featured Publications

1. Gupta, S. C., Prateeksha, P., Tripathi, T., Sidhu, O. P., & Singh, B. N. (2025). Assessment of volatile compounds variability among two Commiphora species using gas chromatography coupled with chemometric analysis and their biological activities. Journal of Essential Oil Research. (Accepted). https://doi.org/

2. Singh, B. N., Tabatabaei, M., Pandit, A., Elling, L., & Gupta, V. K. (2024). Emerging advances in glycoengineering of carbohydrates/glycans and their industrial applications. Biotechnology Advances, 72, 108324. https://doi.org/

3. Sharma, V. K., Prateeksha, P., Singh, S. P., Rao, C. V., & Singh, B. N. (2023). Nyctanthes arbor-tristis bioactive extract ameliorates LPS-induced inflammation through the inhibition of NF-κB signalling pathway. Journal of Ethnopharmacology, 320, 117382. https://doi.org/

4. Gupta, A., Singh, G. D., Gautam, A., Tripathi, T., Taneja, A. K., Singh, B. N., Roy, R., Sidhu, O. P., Panda, S. K., & Bhatt, A. (2023). Unraveling compositional study, chemometric analysis, and cell-based antioxidant potential of selective high nutraceutical value amaranth cultivars using a GC–MS and NMR-based metabolomics approach. ACS Omega, 8(50). https://doi.org/

5. Jadaun, V., Prateeksha, P., Nailwal, T., & Singh, B. N. (2023). Antioxidant activity and simultaneous estimation of four polyphenolics in different parts of Carica papaya L. by a validated high-performance thin-layer chromatography method. JPC – Journal of Planar Chromatography – Modern TLC, 1–11. https://doi.org/

Vincelet Jobikha A | Materials Science | Young Scientist Award

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Ms. Vincelet Jobikha A | Materials Science | Young Scientist Award

Research Scholar, Saveetha Engineering College, India

Ms. Vincelet Jobikha A Arul Swamy is a promising early-career researcher currently pursuing her Ph.D. in Physics at Saveetha Engineering College, affiliated with Anna University, Chennai. Her research focuses on the synthesis and characterization of rare-earth-doped tellurite glasses and nanomaterials for advanced radiation shielding and energy applications. She has successfully developed a novel nanomaterial that enhances solar energy efficiency and designed an electrical circuit capable of converting 8 volts to 230 volts, demonstrating her innovative capabilities in applied physics. She completed her M.Sc. in Physics at Muslim Arts College, Kanniyakumari, and her B.Sc. in Physics at Infant Jesus College of Arts and Science for Women, graduating with First Class with Distinction in both degrees. Her foundational education, including SSLC and HSC, was completed at Amala Matriculation Higher Secondary School. Ms. Vincelet Jobikha A has actively engaged with the scientific community, participating in 15 international and national conferences and delivering both oral and poster presentations. She has attended three workshops and hands-on training programs across India and completed specialized courses at JNTU Hyderabad and Madurai Kamaraj University. Her technical expertise spans structural, optical, and gamma-ray shielding characterization, with proficiency in XRD, FTIR, UV-Vis-NIR, photoluminescence, and radiation shielding metrics such as MAC, LAC, Zeff, and HVL. Her research contributions include one Scopus-indexed publication with another under review, alongside four patents in advanced glass systems. She was honored with the SCOPUS INDEX 2025 International Best Researcher Award for excellence in “Glass Ceramics.” Beyond academics, she has demonstrated strong leadership and communication skills through active participation in co-curricular activities, essay competitions, and elocution events. With her early achievements, innovative research, and strong academic foundation, Ms. Vincelet Jobikha A exhibits significant potential for future contributions to materials science, radiation protection technologies, and global scientific collaboration. She maintains an author metric of 1 document, 1 citation and an h-index of 1, reflecting early but impactful contributions to materials science.

Profile: Scopus | ORCID | Google Scholar | ResearchGate

Featured Publications

1. Vinothkumar, P., Yamini, B., Praveenkumar, S., & Jobikha, A. V. (2025). Synthesis, structural, and optical properties of lead-free Tm³⁺ ions doped zinc tellurite glass and Ho³⁺ ions doped zinc borophosphate glass for radiation shielding application. Radiation Physics and Chemistry, 234, 112795.

 

Carol López De Dicastillo | Materials Science | Best Industrial Research Award

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Dr. Carol López De Dicastillo | Materials Science | Best Industrial Research Award

Senior Scientist, Institute of Agrochemistry and Food Technology (IATA-CSIC), Spain

Dr. Carol López de Dicastillo is a distinguished researcher in food science and materials engineering, currently serving as Tenured Researcher at the Institute of Agrochemistry and Food Technology (IATA-CSIC) in Spain. She earned her PhD in Food Science and Technology from the Polytechnic University of Valencia in 2011, after completing her MSc in 2007 and BSc in Chemistry in 2005, both from Spanish institutions. Her professional experience includes roles as a “Ramón y Cajal” Researcher in Spain (2022–2024), Marie Curie Researcher at ONYRIQ, Spain (2021–2022), and Academic-Researcher at the University of Santiago de Chile (2013–2021), with additional predoctoral and postdoctoral stays at Rutgers University (USA), CSIRO (Australia) and research collaborations in France, the Netherlands and Brazil. Her research interests focus on sustainable and active food packaging, including biodegradable and recycled polymers, hydrophilic polymers, chemical functionalization, controlled release and polymer-based delivery systems. She possesses strong research skills in polymer synthesis, emulsification, chemical grafting, material characterization and industrial technology transfer. Dr. Carol López de Dicastillo has authored 85 publications with 3,540 citations and an h-index of 33, including high-impact Q1 journal articles, 8 book chapters, and holds 7 patents (6 as responsible inventor). She has supervised 3 PhD students (2 ongoing), 4 MSc and 17 BSc theses, and taught courses in Food Engineering, Food Technology and Chemical Engineering. Her awards and honors include the Marie Curie Fellowship and Ramón y Cajal Research Contract, reflecting her excellence in research and international collaboration. Dr. Carol López de Dicastillo has also contributed to community outreach and science dissemination through initiatives such as PRONANO, CONICYT and #mejorIata. In conclusion, her outstanding contributions to sustainable food packaging, mentorship, innovation and international research collaborations make her highly deserving of recognition, highlighting her potential to continue advancing materials science and industrial applications globally.

Profile: Scopus | ORCID | Loop | Sci Profiles | Web of Science | LinkedIn

Featured Publications

1. López de Dicastillo, C., Gómez-Estaca, J., López-Carballo, G., Gavara, R., & Hernández-Muñoz, P. (2023). Agro-industrial protein waste and co-products valorization for the development of bioplastics: Thermoprocessing and characterization of feather keratin/gliadin blends. Molecules, 28(7350).

2. Velásquez, E., Garrido, L., Valenzuela, X., Galotto, M. J., Guarda, A., & López de Dicastillo, C. (2023). Valorization of post-consumer recycled polypropylene through their reinforcement with amine and amine/silane organically modified clays for potential use in food packaging. Food Packaging and Shelf Life, 38, 101121.

3. Patiño Vidal, C., Luzi, F., Puglia, D., López-Carballo, G., Rojas, A., Galotto, M. J., & López de Dicastillo, C. (2023). Development of a sustainable and antibacterial food packaging material based on a biopolymeric multilayer system composed by polylactic acid, chitosan, cellulose nanocrystals, and ethyl lauroyl arginate. Food Packaging and Shelf Life, 36, 101050.

4. Rojas, A., Velásquez, E., Piña, C., Galotto, M. J., & López de Dicastillo, C. (2021). Designing active mats based on cellulose acetate/polycaprolactone core/shell structures with different release kinetics. Carbohydrate Polymers, 261, 117849.

5. Velásquez, E. J., Patiño-Vidal, C., Rojas, A., Guarda, A., Galotto, M. J., & López de Dicastillo, C. (2021). Natural antimicrobials and antioxidants added to polylactic acid packaging films. Part I: Polymers processing techniques. Comprehensive Reviews in Food Science and Food Safety, 20(5), 4378–4393.

 

Vincelet Jobikha A | Materials Science | Women Researcher Award

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Ms. Vincelet Jobikha A | Materials Science | Women Researcher Award

Research Scholar, Saveetha Engineering College, India

Ms. Vincelet Jobikha A is a dedicated and accomplished researcher in Materials Science, currently pursuing her Ph.D. in Physics at Saveetha Engineering College, affiliated with Anna University, focusing on nanomaterials for energy production and rare earth-doped tellurite glass and ceramics for radiation shielding applications. She completed her M.Sc. in Physics at Muslim Arts College, Kanniyakumari and B.Sc. in Physics at Infant Jesus College of Arts and Science for Women, graduating with first-class distinction in both degrees. Her professional experience includes active participation in 15 national and international conferences, workshops and specialized training programs, delivering oral and poster presentations, and engaging in collaborative research initiatives across India. Ms. Vincelet Jobikha A research interests encompass advanced glass and ceramic materials, nanomaterials for solar energy enhancement and radiation shielding technologies, with expertise in material synthesis, structural and optical characterization (XRD, FTIR, UV-Vis-NIR, PL) and gamma-ray shielding evaluations. She has demonstrated strong research skills through the development of novel nanomaterials that improve solar energy efficiency, designing electrical circuits and securing four patents related to glass systems for radiation protection. Her scholarly contributions include one Scopus-indexed publication with another under review, alongside numerous participations in specialized courses at JNTU Hyderabad and Madurai Kamaraj University. Ms. Vincelet Jobikha A has received the SCOPUS INDEX 2025 International Best Researcher Award for excellence in Glass Ceramics and actively engages in co-curricular activities that enhance leadership, communication and mentorship. Her combination of rigorous academic training, innovative research and professional recognition positions her as a rising leader in materials science, with strong potential for impactful international research contributions, high-quality publications and continued advancement of science and technology.

Profile: Scopus | ORCID | Google Scholar | ResearchGate | LinkedIn

Featured Publications

1. Vinothkumar, P., Yamini, B., Praveenkumar, S., & Jobikha, A. V. (2025). Synthesis, structural, and optical properties of lead-free Tm³⁺ ions doped zinc tellurite glass and Ho³⁺ ions doped zinc borophosphate glass for radiation shielding application. Radiation Physics and Chemistry, 234, 112795.

 

Yonghui Sun | Materials Science | Best Researcher Award

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Dr. Yonghui Sun | Materials Science | Best Researcher Award

Assistant Professor, Henan Normal University, China

Dr. Yonghui Sun is an accomplished researcher in supramolecular and organic chemistry with a specialization in purely organic room-temperature phosphorescence materials, currently serving as an Associate Professor at the School of Chemistry and Chemical Engineering, Henan Normal University, China. He earned his Ph.D. in Organic Chemistry from Nankai University in 2023 under the supervision of Prof. Yu Liu, following an M.S. in Organic Chemistry from Henan Normal University (2019) and a B.S. in Chemistry from Anyang Institute of Technology (2016). His professional experience includes academic research and teaching, with a focus on molecular engineering, matrix confinement strategies, macrocyclic chemistry, supramolecular assembly, and artificial transmembrane transport systems. Dr. Yonghui Sun has presented his research at prestigious national and international conferences, including the ISMSC 2024 in Hangzhou and the Asian Cyclodextrin Conference, highlighting his active involvement in global academic exchanges. His research skills encompass advanced molecular design, nanomaterial synthesis and supramolecular interaction analysis, which have led to high-impact publications indexed in Scopus and IEEE, with 9 documents, 303 citations and an h-index of 8. Recognized for his academic promise, Dr. Yonghui Sun has received honors through invited talks and scientific engagement, contributing to the broader chemistry community. In conclusion, his strong educational background, innovative research contributions and growing academic influence establish him as a promising leader in nanotechnology and supramolecular chemistry, with great potential to impact science and society.

Profile: Scopus

Featured Publications

1. Yonghui Sun, Lijuan Liu, Linnan Jiang, Yong Chen, Hengyue Zhang, Xiufang Xu, and Yu Liu, (2023). Unimolecular chiral stepping inversion machine. Journal of the American Chemical Society, 145(28), 16711–16716.

2. Yonghui Sun, Linnan Jiang, Lijuan Liu, Yong Chen, Wen-Wen Xu, Jie Niu, Yuexiu Qin, Xiufang Xu, and Yu Liu, (2023). Two calix[3]phenothiazine-based amorphous pure organic room-temperature phosphorescent supramolecules mediated by guest. Advanced Optical Materials, 11(20), 2300326.

3. Yonghui Sun, Linnan Jiang,Yong Chen, Yu Liu, (2024). In situ crosslink polymerization induced long-lived multicolor supramolecular hydrogel based on modified β-cyclodextrin. Chinese Chemical Letters, 35, 108644.

4. Yonghui Sun, Yong Chen, Linnan Jiang, Xiaoyong Yu, Yuexiu Qin, Shuaipeng Wang, and Yu Liu, (2022). Purely organic blue room-temperature phosphorescence activated by acrylamide in situ photopolymerization. Advanced Optical Materials, 10(24), 2201330.

5. Yonghui Sun, Yong Chen, Xianyin Dai, Yu Liu, (2021). Butyrylcholinesterase responsive supramolecular prodrug with targeted near-infrared cellular imaging property. Asian Journal of Organic Chemistry, 10(12), 3245–3252.

 

Mohammad Raza Miah | Materials Science | Best Researcher Award

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Assist. Prof. Dr. Mohammad Raza Miah | Materials Science | Best Researcher Award

Assistant Professor | Department of Textile Engineering, BGMEA University of Fashion and Technology (BUFT) | Bangladesh

Assist. Prof. Dr. Mohammad Raza Miah is a distinguished academic and researcher in the field of materials physics, chemistry, and textile engineering. He has built a strong reputation for his expertise in sustainable polymeric nanocomposites, high-performance materials and textile innovation. His academic journey has been shaped by international experiences across Bangladesh and China, where he pursued advanced degrees in prestigious institutions under English-taught programs. He has served in various academic roles, progressively advancing from lecturer to senior lecturer, visiting assistant professor and currently as an assistant professor in the Department of Textile Engineering at BGMEA University of Fashion & Technology. His work integrates teaching excellence with a strong research focus, particularly in the development and characterization of bio-based polymeric materials. In addition to his teaching responsibilities, Assist. Prof. Dr. Mohammad Raza Miah is an active contributor to international scientific conferences, workshops and collaborative research projects. He has received multiple awards for academic excellence, international recognition and research contributions, reflecting his dedication to scholarly impact. His professional memberships in engineering and textile organizations further demonstrate his commitment to advancing the field. Passionate about innovation, sustainability and scientific problem-solving, Assist. Prof. Dr. Mohammad Raza Miah work continues to bridge fundamental materials science with industrial applications in textiles and polymers.

Publication Profile

Scopus

Orcid

Google Scholar

Education

Assist. Prof. Dr. Mohammad Raza Miah’s educational foundation reflects a strong interdisciplinary blend of materials science, chemistry and textile engineering. He earned his Doctor of Philosophy in Materials Physics and Chemistry from the University of Chinese Academy of Sciences, hosted at the Ningbo Institute of Materials Technology and Engineering, where his research centered on sustainable polyester nanocomposites derived from renewable resources. His doctoral thesis explored the preparation, structural analysis, and property relationships of 2,5-FDCA-based polyester nanocomposites, focusing on environmentally friendly material innovations. Prior to this, he completed a Master’s degree in Textile Engineering at Wuhan Textile University, gaining advanced expertise in fiber science, material processing and applied textile technology. His academic career began with a Bachelor’s degree in Textile Engineering from Atish Dipankar University of Science and Technology in Bangladesh, where he developed foundational knowledge in yarn manufacturing, fabric design, dyeing and finishing processes. All of his degree programs were delivered in English, providing him with strong communication skills in international academic settings. His educational background not only equips him with a broad technical understanding but also enables him to conduct interdisciplinary research that connects materials chemistry with practical textile applications, bridging scientific discovery with industrial relevance.

Professional Experience

Assist. Prof. Dr. Mohammad Raza Miah’s professional career is marked by progressive roles in academia, where he has combined teaching excellence with impactful research contributions. He currently serves as an Assistant Professor in the Department of Textile Engineering at BGMEA University of Fashion & Technology, where he teaches core textile courses, supervises research projects, and contributes to departmental development. Before attaining his current position, he served as a Visiting Assistant Professor at the same institution, as well as at Narsingdi Textile Engineering College, affiliated with the Bangladesh University of Textiles. These positions allowed him to engage with a diverse student body, deliver specialized lectures, and integrate industrial case studies into academic instruction. He has also held roles as Senior Lecturer and Lecturer in the Department of Textile Engineering at Bangladesh University of Business & Technology, where he developed new teaching materials, mentored student research, and collaborated with colleagues on curriculum improvement. Across all positions, his responsibilities have included laboratory instruction, research project supervision, academic advising, and participation in institutional committees. His professional journey reflects dedication to advancing textile education, fostering innovation in polymeric and composite materials and nurturing the next generation of engineers through research-driven teaching methodologies.

Research Interest

Assist. Prof. Dr. Mohammad Raza Miah’s research interests lie at the intersection of materials chemistry, polymer science, and textile engineering, with a strong emphasis on sustainability and advanced material functionality. He focuses on the design, synthesis and characterization of bio-based polymeric nanocomposites, particularly those derived from renewable resources such as 2,5-furandicarboxylic acid (FDCA). His work investigates the structural, thermal and mechanical properties of sustainable polyesters and their reinforcement with nanomaterials to enhance performance for various applications. In the field of textiles, his research explores natural dye extraction from botanical sources, eco-friendly coloration processes and integration of functional coatings to improve fabric properties. He is also interested in the synthesis and application of high-performance polymers, two-dimensional (2D) materials, and hybrid composites for advanced engineering applications. His approach combines experimental fabrication with advanced characterization techniques, including NMR, XRD, SEM, FT-IR, TEM, DSC, TGA and Raman spectroscopy. Through his research, Assist. Prof. Dr. Mohammad Raza Miah aims to contribute to the global transition towards greener materials, reduced environmental impact and innovative textile products with multifunctional properties. His work not only addresses industrial challenges but also aligns with global sustainability goals, promoting resource-efficient manufacturing and circular economy principles within the polymer and textile sectors.

Research Skills

Assist. Prof. Dr. Mohammad Raza Miah possesses a comprehensive set of research skills spanning materials fabrication, polymer chemistry, nanotechnology and textile science. He is proficient in the synthesis of bio-based polymers, preparation of nanocomposites, and processing of textile materials for functional performance. His expertise covers a wide range of advanced characterization techniques, including nuclear magnetic resonance (NMR), X-ray diffraction (XRD), scanning and transmission electron microscopy (SEM, TEM, HRTEM), atomic force microscopy (AFM), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), Raman spectroscopy, X-ray photoelectron spectroscopy (XPS) and energy-dispersive X-ray mapping. He is adept at UV-Vis spectroscopy, spectrophotometry, and surface analysis methods for both polymeric and textile materials. Beyond laboratory instrumentation, he has strong computational skills, including data analysis with Origin Pro, MATLAB and Python, as well as AI-assisted enzyme and material design tools such as Rosetta, RF-Diffusion, and FoldX. He is experienced in scientific writing, project management, and collaborative research, maintaining high-quality standards in experimental design and reporting. His skills also extend to technical drawing, AutoCAD and graphic editing for research visualization. By integrating experimental expertise with computational tools, Assist. Prof. Dr. Mohammad Raza Miah delivers robust research outcomes that advance knowledge and offer industrial applicability in materials and textile engineering.

Awards and Honors

Throughout his academic and professional journey, Assist. Prof. Dr. Mohammad Raza Miah has been recognized for his outstanding performance, leadership and contributions to research and education. He has received prestigious awards for excellence in international graduate studies, acknowledging his high academic standing and impactful research during his doctoral program. His achievements have been celebrated by leading institutions, including the University of Chinese Academy of Sciences and the Ningbo Institute of Materials Technology and Engineering. He has been the recipient of competitive international scholarships and travel grants, enabling him to pursue advanced studies and present his work at global conferences. These include recognition from the Bangladesh-Sweden Trust Fund, the CAS-TWAS President’s Fellowship and institutional scholarships from Wuhan Textile University and Atish Dipankar University of Science and Technology. Such honors reflect his academic dedication, research excellence and ability to represent his institutions at the highest levels. They also demonstrate the global relevance of his work, as he has engaged with international scientific communities through conferences in Asia, Europe and North America. His awards not only acknowledge past accomplishments but also serve as motivation for continued innovation in sustainable materials and advanced textile technologies.

Author Metrics

  • Publications: 32

  • Total Citations: 673+

  • h-index: 14

  • i10-index: 15

(including research papers, review articles, communications, letters, conference proceedings, book chapters, and invited features)

Publications Top Notes

1. Sustainable approach for wastewater treatment using microbial fuel cells and green energy generation–A comprehensive review
Citations: 138
Year: 2021

2. Polypyrrole-based sensors for volatile organic compounds (VOCs) sensing and capturing: A comprehensive review
Citations: 120
Year: 2022

3. Textile-based flexible and printable sensors for next generation uses and their contemporary challenges: A critical review
Citations: 51
Year: 2022

4. Recent Progress on Sustainable 2, 5-Furandicarboxylate-Based Polyesters: Properties and Applications
Citations: 42
Year: 2024

5. A Study on the Effects of Pre-treatment in Dyeing Properties of Cotton Fabric and Impact on the Environment
Citations: 36
Year: 2016

6. Lignin Modification for Enhanced Performance of Polymer Composites
Citations: 33
Year: 2023

7. High‐Strength, High‐Barrier Bio‐Based Polyester Nanocomposite Films by Binary Multiscale Boron Nitride Nanosheets
Citations: 32
Year: 2023

8. High-compact MXene-based coatings by controllable interfacial structures
Citations: 28
Year: 2023

9. Super-anticorrosion epoxy nanocomposites prepared with P-doped carbon dots functionalized large-size boron nitride nanosheets
Citations: 26
Year: 2023

10. Impact of strain on the electronic, phonon, and optical properties of monolayer transition metal dichalcogenides XTe2 (X= Mo and W)
Citations: 26
Year: 2022

Conclusion

Assist. Prof. Dr. Mohammad Raza Miah stands out as an accomplished educator, researcher and innovator in the fields of materials science, polymer chemistry and textile engineering. His career reflects a balance between academic excellence, research productivity and commitment to sustainability. With expertise in bio-based polymeric nanocomposites, high-performance materials, and eco-friendly textile processing, he bridges the gap between fundamental science and industrial application. His advanced research skills, honed through extensive laboratory experience and international collaboration, allow him to contribute meaningfully to global challenges in sustainable manufacturing. His numerous awards and honors underscore his academic leadership and dedication to impactful research. As a member of professional engineering and textile organizations, he remains actively engaged with both academic and industrial communities, fostering collaboration and knowledge exchange. Beyond his professional achievements, Assist. Prof. Dr. Mohammad Raza Miah is passionate about inspiring students, advancing green technologies, and contributing to a future where materials innovation supports environmental stewardship. His academic journey serves as a testament to the value of dedication, interdisciplinary expertise and a vision for a sustainable and technologically advanced textile industry.

 

Yitayal Siyoum | Materials Science | Best Researcher Award

Published on by New Scientists

Mr. Yitayal Siyoum | Materials Science | Best Researcher Award

Lecturer and Researcher at Woldia University, Ethiopia.

Mr. Yitayal Siyoum is a dedicated mechanical engineering lecturer and incinerator engineer with a strong academic foundation and diversified research experience. Known for his analytical thinking, strong problem-solving skills, and commitment to innovation, he has developed a comprehensive background in manufacturing, additive manufacturing, and precision engineering. His career spans both academic and industrial environments, combining theoretical knowledge with practical expertise in materials science, CNC programming, and mechanical systems operation. As a lecturer at Woldia University, he teaches a variety of courses in manufacturing and industrial engineering while actively advising both undergraduate and master’s research projects. He also brings hands-on engineering experience from his work with UNOPS, where he was responsible for plant design, installation, and maintenance. His professional journey reflects a blend of technical excellence, teaching acumen, and research proficiency. With a passion for academic advancement, he is currently pursuing a Ph.D. at the University of Genova, Italy, with a proposed research focus on machine learning-driven modeling of metallic microstructures for energy systems. Mr. Siyoum is a proactive team player, an articulate communicator, and a dependable academician aiming to make meaningful contributions to the global engineering research community.

📝Publication Profile

Scopus

Orcid

🎓Education

Mr. Yitayal Siyoum has pursued a progressive academic trajectory in mechanical and manufacturing engineering. He is currently undertaking a Doctor of Philosophy (Ph.D.) in Mechanical, Energy, and Management Engineering at the University of Genova, Italy (2025–2028). His research is conducted under the Department of Mechanical, Energetics, Management, and Transport Engineering, with a specialization in Processing Technologies and Systems. His proposed research focuses on machine learning–driven modeling of metallic microstructures for energy system state estimation—an interdisciplinary approach combining computational intelligence with advanced materials engineering. Prior to his doctoral studies, Mr. Siyoum completed a Master of Science in Mechanical (Manufacturing) Engineering at Bahir Dar University, Bahir Dar Institute of Technology, Ethiopia, from December 2020 to November 2022. His master’s thesis addressed the microstructural analysis and mechanical property optimization of bio-implant materials, utilizing wire-cut Electrical Discharge Machining (EDM) and Artificial Neural Networks (ANN) enhanced by advanced optimization algorithms including Jaya, Genetic, and Teaching–Learning-Based Algorithms. He also holds a Bachelor of Science in Mechanical (Manufacturing) Engineering from Debre Markos University, Ethiopia, completed in 2018. His academic foundation began with a comprehensive education in Natural Sciences at Shendi Secondary School in Womberma, Ethiopia, completed in 2013. His educational pathway reflects a consistent dedication to technical excellence and applied research.

💼Professional Experience

Mr. Yitayal Siyoum has a dynamic professional career that includes both academic and industrial roles. Since November 2022, he has served as a Lecturer and Researcher at Woldia University, Ethiopia, where he teaches undergraduate and graduate courses in manufacturing and industrial engineering. His teaching portfolio includes courses such as welding, metal forming, manufacturing systems, CAD/CAM/CIM, metrology, and materials handling. He actively supervises thesis work and guides students in project development.

From March 2019 to October 2020, he worked as an Assistant Lecturer at the same institution, providing instructional support in core engineering subjects like Engineering Dynamics and Workshop Practice. Prior to his academic career, Mr. Siyoum worked briefly as a Mechanical Engineer (Incinerator Engineer) at UNOPS, Ethiopia, from January to March 2019. In this role, he focused on the design, installation, and operation of plant machinery, contributing to public health through environmentally safe waste disposal systems.

His career demonstrates a balanced combination of theoretical teaching, laboratory management, and hands-on industrial engineering experience. His deep understanding of mechanical systems, manufacturing practices, and engineering education makes him a valuable contributor to both academia and industry.

🔬Research Interest

Mr. Yitayal Siyoum’s research interests are deeply rooted in advanced manufacturing technologies and engineering optimization. He is particularly focused on additive manufacturing, where he investigates design and fabrication strategies for creating sustainable materials. His work in this area includes the development of composite materials and small-scale 3D printing machines.

In precision manufacturing, he explores the automation of machining systems that function without human intervention while maintaining precise tolerance levels. His research also integrates machine learning algorithms to enhance adaptive machining, welding, and 3D printing processes, particularly for additive manufacturing applications.

Additionally, Mr. Siyoum is interested in the design and management of production processes, including life cycle assessments (LCA), sustainability analysis, and technical-economic feasibility studies for new products. His research extends to industrial quality, safety, and efficient process design, bridging academic theory with real-world applications.

Overall, his multidisciplinary interests aim to advance the field of mechanical engineering by leveraging computational tools, AI, and sustainable technologies. His academic path and project involvement demonstrate a strong commitment to addressing current and future challenges in advanced manufacturing systems.

🛠️Research Skills

Mr. Yitayal Siyoum has cultivated a comprehensive skill set in engineering research, particularly in the areas of manufacturing, materials science, and computational analysis. He is proficient in designing and conducting experimental studies in additive manufacturing, including the optimization of process parameters using machine learning and artificial neural networks (ANN).

He has hands-on experience with microstructure analysis, mechanical property evaluation, and composite material design. Mr. Siyoum also engages in precision machining studies, such as wire-cut EDM, and uses optimization algorithms including Genetic Algorithms, Jaya Algorithm, and Teaching Learning-based Optimization.

In computational and simulation work, he is skilled in tools such as AutoCAD, SolidWorks, Fusion 360, ANSYS, ProCAST, and Deform 3D. His coding experience includes MATLAB, C++, and basic Java, making him capable of modeling physical systems and developing simulation environments.

Moreover, his background in life cycle assessment (LCA), feasibility studies, and quality control gives him an applied perspective on industrial processes. Mr. Siyoum’s ability to plan, schedule, and meet research deadlines, combined with his teaching and supervisory experience, make him an effective researcher and academic collaborator.

🏆Awards and Honors

Mr. Yitayal Siyoum has demonstrated academic excellence throughout his educational journey, earning top marks and distinctions that reflect his diligence and expertise. He completed his Master of Science in Mechanical (Manufacturing) Engineering with an outstanding GPA of 3.92 out of 4.00 at Bahir Dar University. His high academic achievement is further evidenced by his Bachelor’s degree performance at Debre Markos University, where he graduated with a GPA of 3.59.

During his undergraduate and postgraduate studies, he actively participated in academic clubs, such as the Mechanical Engineering Club, and provided voluntary teaching assistance to community high school and preparatory students in mathematics and physics. He was also involved in mentoring junior university students in programming and technical drawing.

Mr. Siyoum has received recognition for his leadership, mentorship, and contribution to university-level applied research projects. His work in engineering education and hands-on internships has earned him commendations from colleagues and supervisors alike. These accolades reflect his strong moral character, commitment to service, and consistent pursuit of academic and professional excellence.

📈Author Metrics

  • Total Documents Published: 4

  • Total Citations: 3 (cited by 3 documents)

  • h-index: 1 (The h-index of 1 indicates that at least 1 of the author’s publications has been cited at least once).

📌Publications Top Notes

1. A review of current research and prospects of fused deposition modelling: application, materials, performance, process variables, parameter optimization, and numerical study

  • Authors: Yitayal Belew Siyoum, Fikir Gashaw Kindie & Mebratu Assefa Gebeyehu

  • Year: 2025 

  • Journal: International Journal of Advanced Manufacturing Technology

  • Citation: Siyoum Y. B., Kindie F. G., & Gebeyehu M. A. (2025). A review of current research and prospects of fused deposition modelling: application, materials, performance, process variables, parameter optimization, and numerical study. Int J Adv Manuf Technol, 138, 1675–1711.

2. Parameter optimization for enhancing mechanical properties of wood‑plastic composites using artificial neural network with genetic algorithm and Taguchi method

  • Authors: Teshager Awoke Yeshiwas, Yitayal Belew Siyoum, Atalay Bayable Tiruneh & Tantigegn Kassahun Adamu

  • Year: 2025

  • Journal: Wood Materials Science & Engineering

  • Citation: Yeshiwas T. A., Siyoum Y. B., Tiruneh A. B., & Adamu T. K. (2025). Parameter optimization for enhancing mechanical properties of wood‑plastic composites using artificial neural network with genetic algorithm and Taguchi method. Wood Mater Sci Eng.

3. Comparative optimization of wire‑cut EDM parameter for enhancing surface finish and machining time on stainless steel: a machine learning, genetic algorithms, teaching–learning based optimization, and multi-objective Jaya approach

  • Authors: Yitayal Belew Siyoum, Fikir Gashaw Kindie, Mebratu Assefa Gebeyehu, Sewale Enyew Chanie, Teshager Awoke Yeshiwas & Yilkal Azene Zelalem

  • Year: 2025

  • Journal: International Journal of Advanced Manufacturing Technology

  • Citation: Siyoum Y. B., Kindie F. G., Gebeyehu M. A., Chanie S. E., Yeshiwas T. A., & Zelalem Y. A. (2025). Comparative optimization of wire‑cut EDM parameter for enhancing surface finish and machining time on stainless steel: a machine learning, genetic algorithms, teaching–learning‑based optimization, and multi-objective Jaya approach. Int J Adv Manuf Technol, 137, 5339–5362.

4. Optimization of wire‑cut EDM parameters using artificial neural network and genetic algorithm for enhancing surface finish and material removal rate of charging handlebar machining from mild steel AISI 1020

  • Authors: Sewale Enyew Chanie, Teshome Mulatie Bogale & Yitayal Belew Siyoum

  • Year: 2025 

  • Journal: International Journal of Advanced Manufacturing Technology

  • Citation: Chanie S. E., Bogale T. M., & Siyoum Y. B. (2025). Optimization of wire‑cut EDM parameters using artificial neural network and genetic algorithm for enhancing surface finish and material removal rate of charging handlebar machining from mild steel AISI 1020. Int J Adv Manuf Technol, 136, 3505–3523.

🧾Conclusion

Mr. Yitayal Siyoum stands out as a committed academician and researcher whose work bridges theoretical knowledge with practical innovation. His background in mechanical engineering—spanning additive manufacturing, precision machining, and machine learning—reflects a passion for addressing industrial and societal challenges through advanced technologies. As a lecturer, he excels in mentoring students and translating complex concepts into real-world applications. His research focus on sustainable material design and intelligent manufacturing systems positions him at the forefront of engineering advancement. Currently pursuing a Ph.D. at the University of Genova, he aims to deepen his understanding of metallic microstructures and energy systems through machine learning. His academic drive, collaborative spirit, and diverse skill set make him a strong candidate for research teams, academic collaborations, and interdisciplinary initiatives. Mr. Siyoum’s unwavering commitment to learning, innovation, and professional growth underscores his goal to contribute meaningfully to the engineering field and to society at large.