Carlos Manterola-Barroso | Bio Materials | Editorial Board Member

Published on by Global Mechanics Awards

Editorial Board Member

Carlos Manterola-Barroso
University of La Frontera, Chile
Academic Profile
Affiliation University of La Frontera
Country Chile
Scopus ID 57729441100
Documents 11
Citations 62 Citations by 54 documents
h-index 5
Subject Area Bio Materials
Event Global Mechanics Awards
ORCID
0009-0002-2480-0355

Carlos Manterola-Barroso is associated with the University of La Frontera in Chile and has contributed to scholarly activities in the interdisciplinary field of biomaterials and applied biomedical research. His academic profile demonstrates continued engagement in publication development, editorial participation, and scientific dissemination within international academic communities.[1] The profile further reflects involvement in collaborative research initiatives connected to biomaterials and mechanics-related scientific applications.[2]

Abstract

This article presents a structured academic recognition profile of Carlos Manterola-Barroso, highlighting scholarly involvement in biomaterials research, editorial responsibilities, publication activity, and contributions to interdisciplinary scientific advancement. The profile also examines research visibility metrics, citation performance, and suitability for recognition within the framework of the Global Mechanics Awards.[3]

Keywords

Biomaterials; Editorial Board Member; Scientific Publications; Research Impact; Academic Recognition; Global Mechanics Awards; Biomedical Engineering; Scholarly Contributions; Citation Analysis; International Research Collaboration.

Introduction

The contemporary academic environment increasingly recognizes interdisciplinary contributions that connect biomedical sciences, engineering, and material sciences. Carlos Manterola-Barroso has participated in this evolving landscape through scholarly publishing and academic collaboration associated with biomaterials research and editorial engagement.[2] Academic recognition programs such as the Global Mechanics Awards seek to acknowledge researchers whose work contributes to scientific communication, innovation, and international academic development.[4]

Research Profile

Carlos Manterola-Barroso is affiliated with the University of La Frontera, an institution recognized for its contributions to scientific and medical research in Chile. His Scopus author profile identifies publication records connected with biomaterials and related interdisciplinary scientific domains.[1] The available metrics indicate an h-index of 5, reflecting measurable citation activity across indexed publications and research outputs.[5]

Research activity in biomaterials commonly integrates principles from engineering, medicine, chemistry, and applied mechanics. Participation in editorial and publication-related activities supports the dissemination of scientific findings and contributes to maintaining research quality standards in academic publishing.[6]

Research Contributions

The scholarly contributions associated with Carlos Manterola-Barroso include participation in research communication and interdisciplinary publication development. Biomaterials research frequently involves the evaluation of material compatibility, structural performance, and biomedical applications that contribute to healthcare innovation and scientific advancement.[7]

Editorial board involvement additionally reflects academic service responsibilities, including peer-review coordination, publication assessment, and support for research integrity within scholarly journals.[8] Such contributions are important components of international scientific ecosystems and support the broader exchange of academic knowledge.

Publications

The Scopus database reports 11 indexed documents connected to the author profile of Carlos Manterola-Barroso.[1] These publications collectively demonstrate continuing participation in scholarly communication and scientific dissemination activities related to biomaterials and associated biomedical disciplines.

  • Research publications associated with biomaterials and biomedical applications.[5]
  • Interdisciplinary scientific articles contributing to engineering and medical integration.[6]
  • Editorial participation supporting peer-reviewed publication standards.[8]

Research Impact

Citation metrics provide one perspective for evaluating scholarly visibility and academic influence. The author profile associated with Carlos Manterola-Barroso indicates 62 citations distributed across 54 documents, reflecting measurable engagement by the research community.[1] Such citation activity suggests that the published works have contributed to ongoing academic discussions and interdisciplinary research references.

Research impact within biomaterials is frequently characterized by practical relevance, interdisciplinary applicability, and collaborative scientific development. Contributions in this area may support advances in medical technologies, healthcare materials, and engineering-based biomedical solutions.[7]

Award Suitability

Carlos Manterola-Barroso demonstrates several attributes aligned with the objectives of the Global Mechanics Awards, particularly through interdisciplinary research involvement, editorial participation, and measurable scholarly output.[4] The combination of indexed publications, citation performance, and international academic visibility supports consideration for professional recognition within scientific and engineering-related award programs.

The role of editorial board membership additionally highlights contributions to maintaining scientific standards and facilitating scholarly communication. Such responsibilities are widely recognized as important indicators of academic service and professional engagement within international research communities.[8]

Conclusion

Carlos Manterola-Barroso represents an academic profile characterized by interdisciplinary biomaterials research, editorial involvement, and measurable scholarly engagement. His publication record, citation metrics, and participation in scientific communication activities collectively support recognition within academic award frameworks such as the Global Mechanics Awards. Continued research and editorial contributions may further strengthen international academic visibility and collaborative scientific impact.[1][4]

References

  1. Elsevier. (n.d.). Scopus author details: Carlos Manterola-Barroso, Author ID 57729441100. Scopus.https://www.scopus.com/authid/detail.uri?authorId=57729441100
  2. University of La Frontera. (n.d.). Institutional research and academic activities.https://www.ufro.cl/
  3. Academic Publishing Standards Committee. (2022). Scientific profiles and interdisciplinary evaluation methodologies.https://doi.org/10.1007/s11192-022-04321-4
  4. Global Mechanics Awards. (n.d.). Award objectives and international recognition framework.https://globalmechanicsawards.com/
  5. Hirsch, J. E. (2005). An index to quantify an individual’s scientific research output. Proceedings of the National Academy of Sciences, 102(46), 16569–16572.https://doi.org/10.1073/pnas.0507655102
  6. Ratner, B. D. (2020). Biomaterials Science: An Introduction to Materials in Medicine. Academic Press.https://doi.org/10.1016/C2017-0-02379-3
  7. Williams, D. F. (2019). Challenges with the development of biomaterials for sustainable medicine. Journal of Biomaterials Applications.https://doi.org/10.1177/0885328219825529
  8. COPE Council. (2021). Principles of transparency and best practice in scholarly publishing.https://publicationethics.org/

Dušica Ćalić | Bio Materials | Excellence in Innovation Award

Published on by Global Mechanics Awards

Prof. Dr. Dušica Ćalić | Bio Materials | Excellence in Innovation Award

Research Full Professor at Institute for Biological Research “Siniša Stanković” – National Institute of Republic of Serbia, University of Belgrade | Serbia

Prof. Dr. Dušica Ćalić is a distinguished researcher in plant biotechnology, plant physiology, genetics, and allelopathy, contributing extensively through scientific publications on in vitro plant development, morphogenesis, and conservation of endangered species, with significant involvement in national and international collaborative research projects, advanced training in molecular biology and flow cytometry, mentorship of graduate scholars, editorial contributions to plant science journals, and recognized achievements in innovation, environmental studies, and applied plant research with a strong global scientific impact.

Citation Metrics (Scopus)

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777

Documents
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Marija Milić | Bio Materials | Research Excellence Award

Published on by Global Mechanics Awards

Dr. Marija Milić | Bio Materials | Research Excellence Award

Teaching Assistant, PhD at Faculty of Technology and Metallurgy, University of Belgrade | Serbia

Dr. Marija Milić (born Pavlović) is a distinguished biotechnology researcher and teaching assistant at the Faculty of Technology and Metallurgy, University of Belgrade, recognized for her extensive scientific contributions in microbial and enzymatic fermentations, bioactive compound recovery, antioxidant activity evaluation, and sustainable agro-waste bioconversion, with strong international project leadership, high citation impact, broad editorial and peer-review experience, and a prolific publication record spanning bioprocessing, environmental biotechnology, and circular bioeconomy applications.

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607

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14

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Bojana Vasiljevic | Bio materials | Research Excellence Award

Published on by Global Mechanics Awards

Dr. Bojana Vasiljevic | Bio Materials | Research Excellence Award

Senior Research Associate at Vinca Institute of Nuclear Sciences | Serbia

Dr. Bojana Vasiljević is a Research Associate at the Institute of Nuclear Sciences “Vinča”, National Institute of the Republic of Serbia, University of Belgrade, working in the Laboratory for Radiation Chemistry and Physics “Gamma”, where her research focuses on microwave-assisted chemistry, advanced synthetic methodologies, and the development of functional nanomaterials with tailored physicochemical properties. She holds a PhD in Chemistry and has extensive expertise in microwave processing using single-mode and multi-mode reactors, nuclear magnetic resonance spectroscopy, FTIR spectroscopy, chromatography techniques, and organic chemical synthesis. Her scientific work spans the synthesis of metal phthalocyanines, bismuth vanadate, carbon quantum dots, and doped carbon-based nanomaterials, with particular emphasis on photocatalytic degradation of organic pollutants, hydrogen production, and the influence of gamma irradiation on material characteristics. Dr. Vasiljević has actively contributed to national, bilateral, and international research projects, collaborated with leading European research institutions, and participated in educational activities through laboratory teaching and academic coordination. She is a member of the Serbian Chemical Society and has authored high-impact journal articles and book chapters in the fields of green chemistry, nanotechnology, and photocatalysis.

Citation Metrics (Scopus)

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328

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h-index
8

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Featured Publications

 

Channabasavaraj Wollur | Bio materials | Best Researcher Award

Published on by Global Mechanics Awards

Dr. Channabasavaraj Wollur | Bio Materials | Best Researcher Award

Associate Professor at Cambridge Institute of Technology | KR Puram Bangalore | India

Dr. Channabasavaraj Wollur, Ph.D., M.E., B.E., is a distinguished researcher and academician specializing in Geotechnical Engineering and Soil Mechanics, currently serving as an Associate Professor at Cambridge Institute of Technology, Bangalore. His scholarly pursuits encompass advanced studies on the utilization of dredged and reservoir sediments for engineering applications, ground improvement techniques, environmental geomechanics, and soil stabilization using industrial and natural by-products. With extensive academic experience across premier institutions and international universities, Dr. Wollur has contributed significantly to multidisciplinary research integrating civil, environmental, and geotechnical sciences. His expertise spans experimental modeling, structural evaluation, and sustainable material development, focusing on transforming waste materials such as dredged sediments, fly ash, and foundry sand into viable construction resources. As an active researcher, he has published several Scopus-indexed and SCI papers in high-impact journals, addressing contemporary challenges in infrastructure sustainability, coastal soil behavior, thermal flux methods, and geopolymer concrete durability. A recognized innovator, he holds a national patent for “Dewatering of Dredged Sediments and Soils by Thermal Flux Method” and has led multiple funded projects supported by government bodies and industry partners, including initiatives on AI-based environmental monitoring, soil stabilization, hydrogen extraction from algae, and eco-friendly fire safety materials. As a technical advisor, editorial board member, and mentor, Dr. Wollur continually advances applied research bridging academia and industry, making substantial contributions toward sustainable civil engineering practices and innovative geotechnical solutions for modern infrastructure development.

Profile: Scopus | Orcid | Google Scholar

Featured Publications:

Gumaste, S. D., Iyer, K. R., Sharma, S., Channabasavaraj, W., & Singh, D. N. (2014). Simulation of fabric in sedimented clays. Applied Clay Science, 91, 117–126.

Channabasavaraj, W., & Visvanath, B. (2013). Influence of relative position of the tunnels: A numerical study on twin tunnels. Missouri University of Science and Technology.

Sowmya, H. N., Wollur, C., Shivashankara, G. P., & Ramaraju, H. K. (2024). Identifying source apportionment of atmospheric particulate matter and gaseous pollutants using receptor models: A case study of Bengaluru, India. Mausam, 75(1), 1–16.

Wollur, C., Shivananda, P., Harinath, S., & Kangda, M. Z. (2023). Measurement of heat flow through the sediments mass by thermal flux method. Innovative Infrastructure Solutions, 8(1), 27.

Manjularani, P., & Channabasavaraj, W. (2015). Augmenting the properties of black cotton soil using additives. International Journal of New Technology and Research, 1(3), 42–45.