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/

Elif Yurttaş | Bio Materials | Research Excellence Award

Published on by Global Mechanics Awards

Dr. Elif Yurttaş | Bio Materials | Research Excellence Award

Postdoc Researcher at Istanbul University- Cerrahpasa | Turkey

Dr. Elif Yurttaş is a dedicated researcher in wood science engineering and polymer science whose work bridges advanced material development with sustainable bio-based innovations, particularly in the fields of wood-polymer composites, lignin-derived nanomaterials, and functional engineered wood products. With research experience spanning prominent institutions including Istanbul Technical University, Sabancı University Nanotechnology Research Center, and InnoRenew CoE in Slovenia, she has contributed to cutting-edge studies on flame-retardant bio-materials, high-performance lignin-based adhesives, silica-coated wood particles, and thermally modified biocomposites designed for improved mechanical, antimicrobial, and thermal behavior. Her academic background covers comprehensive training from undergraduate to doctoral level in forest industry and wood science engineering, supported by prestigious national research scholarships. Dr. Yurttaş has authored impactful publications on PLA-based biocomposites, nanostructured wood materials, ecological thermoplastic reinforcement, and the technological properties of engineered fiberboard systems. She is also an active reviewer for international journals and global scientific events, reflecting her commitment to scholarly excellence. Alongside advanced laboratory skills, she brings experience in 3D-printing biopolymers, material characterization, and composite performance testing, positioning her as a promising scientist contributing meaningfully to sustainable materials research and circular-economy–driven innovation.

Profile:  Orcid | Google Scholar

Featured Publications:

Ayrilmis, N., Yurttaş, E., Durmus, A., Özdemir, F., Nagarajan, R., & Kalimuthu, M. (2021). Properties of biocomposite films from PLA and thermally treated wood modified with silver nanoparticles using leaf extracts of oriental sweetgum. Journal of Polymers and the Environment, 29(8), 2409–2420.

Ayrilmis, N., Akbulut, T., & Yurttaş, E. (2017). Effects of core layer fiber size and face-to-core layer ratio on the properties of three-layered fiberboard. BioResources, 12(4), 7964–7974.

Özdemir, F., Ayrılmis, N., & Yurttaş, E. (2022). Mechanical and thermal properties of biocomposite films produced from hazelnut husk and polylactic acid. Wood Material Science & Engineering, 17(6), 783–789.

Yurttaş, E., Tetik, N., & Ayrılmış, N. (2022). Antimicrobial properties of 3D printed biocomposites with heat-treated wood flour using silver nanoparticles with leaf extract. Wood Material Science & Engineering, 1–9.

Yurttaş, E., & Ayrılmış, N. (2023). Mechanical and thermal properties of 3D‐printed biocomposites of polylactic acid and thermally modified wood flour with silver nanoparticles. Macromolecular Materials and Engineering, 308(12), 2300180.

Nahid Ghasemi | Bio materials | Editorial Board Member

Published on by Global Mechanics Awards

Assoc. Prof. Dr. Nahid Ghasemi | Bio materials | Editorial Board Member

Associate Professor at Islamic Azad University Arak Branch | Iran

Assoc. Prof. Dr. Nahid Ghasemi is an accomplished Associate Professor of Applied Chemistry whose academic career spans extensive teaching, research, and scientific supervision across undergraduate, graduate, and doctoral levels at the Islamic Azad University, Arak Branch. With foundational training from the University of Tehran and advanced degrees in Applied Chemistry from the Islamic Azad University system, she has built deep expertise in analytical chemistry, environmental chemistry, nanomaterials, chemical modeling, and reactor systems. Her scholarly work reflects a sustained commitment to innovative methods in adsorption, biosynthesis of nanoparticles, membrane technology, environmental remediation, microextraction techniques, neural-network-based modeling, and green chemistry. She has contributed significantly to research through projects on simultaneous spectrophotometric determination of uranium and thorium using genetic algorithm–PLS regression, CFD simulation of impinging reactors, QSAR-based prediction of non-peptidic inhibitors of human neutrophil elastase, and extensive studies on sorption kinetics, thermodynamics, and micromixer design. Her publication record is equally strong, including research on kinetic and thermodynamic studies of methylene blue adsorption by MIL-101(Cr)@ZnO nanostructure, electricity generation enhancement using SPEEK-based proton exchange membranes modified with goethite nanoparticles, adsorption behavior of Pb(II) on pumpkin-derived adsorbents, biosynthesis and catalytic activity of silver nanoparticles produced from various plant extracts, optimization of antifouling nanofiltration PES membranes, heat transfer prediction in helically coiled tubes with nano-fluids, trace analysis of pharmaceutical compounds using solvent bar microextraction, green synthesis of nanoparticles from diverse botanical sources, modeling of nanofluid viscosity using ANN and SOM systems, optimization of cyanide removal using ZnO-MOF/Cu nano-adsorbents, development of graphene oxide–based nanocomposites, and innovative methods combining perceptron and self-organizing neural networks for heat transfer prediction. Through extensive supervision of Ph.D. and M.Sc. students and a prolific record of multidisciplinary research, she has established herself as a respected scientist whose contributions continue to advance applied chemistry, environmental technologies, and nano-enabled analytical methodologies.

Profile:  Scopus | Orcid | Google Scholar

Featured Publications:

Ghasemi, M., Naushad, M., Ghasemi, N., & Khosravi-Fard, Y. (2014). Adsorption of Pb (II) from aqueous solution using new adsorbents prepared from agricultural waste: Adsorption isotherm and kinetic studies. Journal of Industrial and Engineering Chemistry, 20(4), 2193–2199.

Khodaie, M., Ghasemi, N., Moradi, B., & Rahimi, M. (2013). Removal of methylene blue from wastewater by adsorption onto ZnCl₂ activated corn husk carbon: Equilibrium studies. Journal of Chemistry, 2013(1), Article 383985.

Ghasemi, M., Naushad, M., Ghasemi, N., & Khosravi-Fard, Y. (2014). A novel agricultural waste-based adsorbent for the removal of Pb (II) from aqueous solution: Kinetics, equilibrium and thermodynamic studies. Journal of Industrial and Engineering Chemistry, 20(2), 454–461.

Abbaszadeh, S., Alwi, S. R. W., Webb, C., Ghasemi, N., & Muhamad, I. I. (2016). Treatment of lead-contaminated water using activated carbon adsorbent from locally available papaya peel biowaste. Journal of Cleaner Production, 118, 210–222.

Mohammadi, F. M., & Ghasemi, N. (2018). Influence of temperature and concentration on biosynthesis and characterization of zinc oxide nanoparticles using cherry extract. Journal of Nanostructure in Chemistry, 8(1), 93–102.