Amun Amri | Nanomaterials | Scientific Advancement Achievement Award

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🌟Prof. Amun Amri, Nanomaterials, Scientific Advancement Achievement Award🏆

  •  Professor at University of Riau, Indonesia 

Prof. Amun Amri is a highly accomplished lecturer and researcher in the Department of Chemical Engineering at the University of Riau, Indonesia. With a diverse educational background in Nuclear Engineering, Chemical Engineering, and Material Engineering, he possesses extensive expertise in nanomaterials, particularly in graphene synthesis and applications, nano-cellulose, lithium-ion battery development, ceramics, and metal oxides nanocomposites. Prof. Amri has held various academic positions, including teaching assistantships and professorships, and has supervised doctoral students both domestically and internationally.

Author Metrics

Google Scholar Profile

Prof. Amun Amri has a strong research profile, as evidenced by his publications and citations. With 69 Scopus indexed journal articles, approximately 57% of which are in Q1 Scopus journals, he demonstrates a consistent publication record in reputable venues. His Scopus H-index of 17 indicates the impact and influence of his research contributions within the scientific community. Additionally, he maintains profiles on platforms such as Scopus, ORCID, and SINTA to showcase his research output and collaborations.

  • Citations:
    • All Time: 1558
    • Since 2019: 1029
  • h-index:
    • All Time: 20
    • Since 2019: 17
  • i10-index:
    • All Time: 33
    • Since 2019: Not provided

These metrics indicate the impact and influence of Amun Amri’s research output over time. While the total number of citations and the h-index have increased since 2019, the i10-index, which represents the number of publications with at least 10 citations, is not provided for the specified time frame. Overall, these metrics reflect continued contributions to the field of Chemical and Nanomaterials Engineering, with a notable increase in citations and h-index in recent years.

Education

Prof. Amri holds a Bachelor’s degree in Nuclear Engineering from Universitas Gadjah Mada, Indonesia, a Master’s degree in Chemical Engineering from the same institution, and a Doctoral degree in Chemical and Material Engineering from Murdoch University, Australia. His educational journey has provided him with a strong foundation in engineering principles and research methodologies, enabling him to pursue advanced research in nanomaterials and chemical engineering.

Research Focus

Prof. Amun Amri’s research interests primarily revolve around Chemical and Nanomaterials Engineering. He specializes in the synthesis and applications of graphene, nano-cellulose, lithium-ion battery development with graphene additives, ceramics, and metal oxides nanocomposites. His work encompasses a wide range of applications, from energy storage solutions to environmental remediation and advanced materials development.

Professional Journey

Prof. Amri’s professional journey spans over two decades, during which he has held various academic positions and contributed significantly to research and education in chemical engineering. From his early career as a lecturer at the University of Riau to his tenure as a teaching assistant at Murdoch University, Australia, he has gained valuable experience in both academia and industry. His progression from lecturer to associate professor to professor reflects his dedication and expertise in his field.

Honors & Awards

 Prof. Amun Amri’s extensive research grants, publications in reputable journals, and leadership roles in research projects indicate recognition for his contributions to the field of chemical engineering and nanomaterials. His involvement in prestigious research initiatives funded by organizations such as BRIN – LPDP and DIKTI underscores his standing as a respected researcher in Indonesia.

Publications Noted & Contributions

Prof. Amri’s publication record includes 69 Scopus indexed journal articles, with a significant portion published in Q1 Scopus journals. These publications cover various aspects of his research interests, including graphene synthesis, lithium-ion battery development, nanocomposites, and materials engineering. His contributions to the scientific literature have advanced knowledge in the field of nanomaterials and garnered citations, as reflected in his Scopus H-index of 17.

  1. “Thermal characterization of binary Calcium-Lithium chloride salts for thermal energy storage at high temperature”
    • Authors: N. Hassan, M. Minakshi, W.Y.H. Liew, A. Amri, Z.T. Jiang
    • Published in: Energies, Volume 16, Issue 12, Page 4715, 2023
    • Summary: This study focuses on the thermal characterization of binary Calcium-Lithium chloride salts for thermal energy storage at high temperatures. It explores the potential of these salts for energy storage applications, providing valuable insights into their thermal behavior and suitability for use in high-temperature environments.
  2. “Comparison of synthesis methods on TiO2-graphene composites for photodegradation of compound waste”
    • Authors: D. Heltina, D.I. Mastura, A. Amri, M.P. Sembiring
    • Published in: Materials Today: Proceedings, Volume 87, Pages 293-298, 2023
    • Summary: This research compares different synthesis methods for TiO2-graphene composites aimed at enhancing the photodegradation of compound waste. By evaluating various synthesis approaches, the study seeks to optimize the composition and properties of the composites to improve their efficiency in waste treatment applications.
  3. “Synthesis of hydroxyapatite powder using natural latex particles as pore-creating agent”
    • Authors: S.R. Yenti, A. Fadli, A. Amri, D. Novandri, F. Setiawan, J. Hasibuan
    • Published in: Materials Today: Proceedings, Volume 87, Pages 278-283, 2023
    • Summary: This paper presents a method for synthesizing hydroxyapatite powder using natural latex particles as a pore-creating agent. The research aims to develop a cost-effective and environmentally friendly approach for producing hydroxyapatite, a material widely used in biomedical and dental applications.
  4. “The Pembuatan Pupuk Organik Padat dari Limbah Pertanian dan Peternakan di Desa Batu Belah Kabuputen Kampar”
    • Authors: S. Sunarno, S.R. Yenti, A. Fadli, W. Wisrayetti, A. Amri, Z. Zultiniar, C.D. Alfarizi
    • Published in: Journal of Community Engagement Research for Sustainability, Volume 3, Issue 1, Pages 63-69, 2023
    • Summary: This publication discusses the production of solid organic fertilizers from agricultural and livestock waste in the Batu Belah Village, Kampar District. It highlights the importance of community engagement and sustainable waste management practices in rural agricultural settings.
  5. “Manufacturing of high brightness dissolving pulp from sansevieria-trifasciata fiber by effective sequences processes”
    • Authors: A. Aman, S. Rahmadahana, A. Amri
    • Published in: Communications in Science and Technology, Volume 7, Issue 1, Pages 45-49
    • Summary: This research focuses on the manufacturing process of high brightness dissolving pulp from Sansevieria-trifasciata fiber. It explores effective sequence processes to produce high-quality dissolving pulp, which is essential for various industrial applications, including textile and paper production.

Research Timeline

Prof. Amun Amri’s research trajectory has been marked by consistent productivity and growth. Beginning with his early research on surface modification and materials characterization during his doctoral studies, he has continued to explore diverse areas within chemical and nanomaterials engineering. From his involvement in research grants to his leadership in collaborative projects, he has demonstrated a commitment to advancing scientific knowledge and addressing real-world challenges through innovative research.

Collaborations and Projects

Prof. Amri has been actively involved in collaborative research projects both nationally and internationally. His participation as a leader or member in research initiatives funded by organizations such as RIIM, BRIN – LPDP, DIKTI, and others highlights his engagement with multidisciplinary teams and his ability to leverage resources for impactful research outcomes. These collaborations have enabled him to expand his research horizons, exchange expertise with peers, and contribute to the advancement of scientific knowledge in his field.

Overall, Prof. Amun Amri’s exemplary contributions to chemical engineering and nanomaterials research make him a deserving recipient of the Scientific Advancement Achievement Award, recognizing his dedication, expertise, and impact in advancing scientific knowledge and addressing real-world challenges.

Melkamu Tadesse Getachew | Mechanical Engineering | Best Researcher Award

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🌟Mr. Melkamu Tadesse Getachew, Mechanical Engineering, Best Researcher Award🏆

  • Melkamu Tadesse Getachew at Bahir Dar University, Ethiopia

Melkamu Tadesse Getachew is an accomplished Mechanical Engineer with a passion for innovation and technology. He holds a BSc in Mechanical Engineering from Bahir Dar University and an MSc in Mechatronics Engineering from Addis Ababa Science and Technology University. Melkamu has demonstrated exceptional academic performance, winning awards such as the Gold Medal from Bahir Dar University and the Solve-IT 2019 national innovation competition. With a keen interest in smart technologies, robotics, aerospace engineering, and advanced control, Melkamu is dedicated to pushing the boundaries of research and engineering.

Education:

Melkamu Tadesse Getachew completed his Bachelor of Science in Mechanical Engineering with Great Distinction from Bahir Dar University, where he emerged as the top scorer of the year. He continued his academic journey by obtaining a Master of Science in Mechatronics Engineering (With Great Distinction) from Addis Ababa Science and Technology University. His academic achievements include remarkable GPAs and the successful completion of thesis projects focusing on 3D printing and aerodynamic modeling.

Research Focus:

Melkamu’s research interests lie in the intersection of smart technologies, robotics, aerospace engineering, and advanced control systems. He is particularly focused on areas such as additive manufacturing, aerodynamic modeling, predictive control for unmanned aerial vehicles, and the application of intelligent control in biomedical engineering. Melkamu is actively engaged in conducting research projects aimed at exploring new frontiers and pushing the boundaries of innovation.

Professional Journey:

Melkamu Tadesse Getachew’s professional journey spans roles in academia, project management, and industrial internships. He has served as a Lecturer at Bahir Dar Institute of Technology and held project management positions at Ganji Construction PLC. Melkamu’s industrial internships provided him with valuable hands-on experience in organizations such as Ethiopian Railways Corporation and Metals and Engineering Corporation. Throughout his career, Melkamu has demonstrated a commitment to excellence and a passion for making meaningful contributions to his field.

Honors & Awards:

Melkamu has received recognition for his academic and professional achievements, including the Gold Medal from Bahir Dar University for being the top scorer of the year and winning the Solve-IT 2019 national innovation competition. He has also been awarded the Best Project Award by Bahir Dar Institute of Technology for his outstanding project work. These honors reflect Melkamu’s dedication, hard work, and exceptional aptitude in his field.

Publications Noted & Contributions:

Melkamu Tadesse Getachew has made significant contributions to the field of engineering through his publications and research endeavors. He has authored papers on topics such as additive manufacturing in aerospace applications, aerodynamic modeling, and efficiency improvement in tire production. His contributions have been recognized for their relevance and impact on advancing knowledge and technology in his areas of expertise.

  1. Experimental and Numerical Investigation of Cavitation Assessment for Runner Blades in a Francis Turbine
    • Journal: Advances in Tribology
    • Year: 2024-02-29
    • Contributors: Adnan Aslam Noon, Aamer Sharif, Melkamu Tadesse Getachew, Riaz Muhammad, Michel Fillon
    • DOI: 10.1155/2024/9265285
    • Source: Crossref
  2. The Current State of the Art and Advancements, Challenges, and Future of Additive Manufacturing in Aerospace Applications
    • Journal: Advances in Materials Science and Engineering
    • Year: 2023-09-30
    • Contributors: Melkamu Tadesse Getachew, Menberu Zeleke Shiferaw, Bekalu Sintayehu Ayele
    • DOI: 10.1155/2023/8817006
    • Source: Melkamu Tadesse Getachew

These publications cover topics related to engineering and materials science, specifically focusing on cavitation assessment in turbine blades and the state of additive manufacturing in aerospace applications. They provide valuable insights into these fields and are authored by researchers who are actively contributing to advancements in their respective areas of expertise.

Author Metrics:

Melkamu’s author metrics reflect the quality and impact of his research contributions. He has published papers in reputable journals and conferences, demonstrating a strong track record of academic output. Melkamu’s publications have garnered attention from the academic community, as evidenced by citation counts and publication metrics. His work has contributed to advancing knowledge and understanding in the field of engineering and related disciplines.

Research Timeline:

Throughout his academic and professional journey, Melkamu Tadesse Getachew has maintained a consistent focus on research and innovation. Starting from his undergraduate studies, he has been actively involved in conducting research projects, completing thesis work, and publishing papers in peer-reviewed journals and conferences. Melkamu’s research timeline illustrates his progression and growth as a researcher, showcasing his dedication to advancing knowledge and making meaningful contributions to his field.

Behnam Seyyedi | Nanocomposite | Editorial Board Member

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🌟Assist Prof Dr. Behnam Seyyedi, Nanocomposite, Editorial Board Member🏆

  Urmia University, Faculty of Engineering, Departement of Materials Engineering, Iran

Behnam Seyyedi is an accomplished researcher and educator specializing in materials science and engineering. With over a decade of experience, he currently holds the position of Assistant Professor at Urmia University in Iran. His expertise lies in catalyst design and heterogeneous catalysis, particularly in the context of oxygen reduction reaction (ORR) catalysts for low-temperature fuel cells. Seyyedi’s research interests also extend to Metal-Organic Frameworks (MOFs), CO2 utilization, H2 storage, and the development of heat-insulate and self-cleaning coatings. Over the course of his career, he has secured research funding, received patents, and authored numerous publications in high-impact journals.

Author Metrics:

Behnam Seyyedi has established himself as a prolific author with a Scopus, Orcid. His work reflects a substantial impact, as evidenced by citation metrics and the quality of journals in which he publishes.

Scopus Profile

Orcid Profile

  • Citations: The author has received 386 citations across 368 documents, indicating a significant impact on the field.
  • Documents: Behnam Seyyedi has contributed to 16 documents indexed on Scopus.
  • h-index: The h-index, a measure of both productivity and citation impact, is 6.

Education:

Behnam Seyyedi earned his Ph.D. in Materials Science from the Università degli Studi di Torino, Italy, focusing on hybrid materials for the storage and purification of small gaseous molecules. His master’s degree, obtained from Amirkabir University of Technology, Tehran, Iran, centered on the synthesis of phthalocyanine pigment using microwave irradiation. Seyyedi’s academic journey began with a Bachelor of Science in Chemistry from Tabriz University, Iran.

Research Focus:

Seyyedi’s primary research revolves around catalyst design and heterogeneous catalysis, specifically targeting ORR catalysts for low-temperature fuel cells. Additionally, he explores the synthesis and application of MOFs, CO2 utilization, H2 storage, and the development of innovative coatings with heat-insulating and self-cleaning properties.

Professional Journey:

Seyyedi’s professional journey includes significant roles such as Assistant Professor at Urmia University and Maragheh University, where he led research projects funded by the universities. Prior to academia, he served as a senior researcher at the Iran National Petrochemical Company for six years, focusing on catalysts for polymer synthesis.

Honors & Awards:

Throughout his career, Seyyedi has received recognition for his contributions, including four patents and a book titled “Metal-Organic Frameworks: A New Class of Crystalline Porous Materials.” He has secured research grants from various entities, including the Iranian and Italian governments.

Publications Top Noted & Contributions:

Seyyedi has made significant contributions to the scientific community through numerous publications in reputable journals. His research covers topics ranging from the rational design of electrocatalysts to the synthesis and investigation of various catalysts’ effects on oxygen reduction reactions.

Title: Rational design of a bi-functional mononuclear Cobalt-dependent composite with improved catalytic activity and excellent durability for the oxygen reduction reaction

Journal: Alexandria Engineering Journal

Publication Date: December 2021

DOI: 10.1016/j.aej.2021.12.038

This article explores the rational design of a bi-functional mononuclear Cobalt-dependent composite, showcasing enhanced catalytic activity and exceptional durability for the oxygen reduction reaction.

Title: Preparation of Cobalt/Sulfur/Graphite Electrocatalyst for Oxygen Reduction from Efficient Two-Electron Pathway

Journal: Russian Journal of Inorganic Chemistry

Publication Date: December 2019

DOI: 10.1134/s0036023619130072

The article, published in the Russian Journal of Inorganic Chemistry, focuses on the preparation of a Cobalt/Sulfur/Graphite electrocatalyst, emphasizing its efficiency in facilitating a two-electron pathway for oxygen reduction.

Title: Enhanced electrocatalytic performance of Cu0.02S0.01/rGO hybrid for oxygen reduction reaction in alkaline medium at low temperature

Journal: International Journal of Hydrogen Energy

Publication Date: October 2019

DOI: 10.1016/j.ijhydene.2019.08.018

In this publication, the authors present the enhanced electrocatalytic performance of a Cu0.02S0.01/rGO hybrid for the oxygen reduction reaction in an alkaline medium at low temperatures.

Title: Bio‐inspired iron/sulfur/graphene nanocomposite and its use in the catalysis of the oxygen reduction reaction at room temperature in alkaline media on a glassy carbon electrode

Journal: Journal of the Chinese Chemical Society

Publication Date: May 2019

DOI: 10.1002/jccs.201800326

This article explores a bio-inspired iron/sulfur/graphene nanocomposite and its catalytic applications for the oxygen reduction reaction under room temperature alkaline conditions on a glassy carbon electrode.

Title: Accelerating the oxygen reduction reaction via a bioinspired carbon‐supported zinc electrocatalyst

Journal: Journal of the Chinese Chemical Society

Publication Date: March 2019

DOI: 10.1002/jccs.201800414

Published in the Journal of the Chinese Chemical Society, this article investigates the acceleration of the oxygen reduction reaction through a bioinspired carbon-supported zinc electrocatalyst.

Research Timeline:

Seyyedi’s research journey began with his Ph.D. in 2008, delving into hybrid materials. Subsequent milestones include roles as an assistant professor, research at the Iran National Petrochemical Company, and impactful contributions in catalyst design, MOFs, and coatings. His timeline showcases a continuous dedication to advancing materials science.