Yan Qin | Functional Composites | Research Excellence Award

Research Excellence Award

Yan Qin
Affiliation Wuhan University of Technology
Country China
Scopus ID 35262802300
Documents 127
Citations 2,030
h-index 21
Subject Area Functional Composites
Event International Material Scientist Awards
Yan Qin
Wuhan University of Technology, China

Yan Qin is a researcher affiliated with Wuhan University of Technology whose scientific activities focus on functional composites and advanced materials engineering. The research profile reflects sustained scholarly productivity, significant citation impact, and continued contributions to the development and characterization of composite materials. Bibliometric indicators demonstrate substantial academic influence within the field of materials science and functional composite technologies.[1]

Abstract

This academic article presents a scholarly overview of Yan Qin and the associated research profile in functional composites and advanced materials. Publication output, citation indicators, and research contributions demonstrate sustained scientific engagement and substantial academic visibility. The available bibliometric evidence supports consideration for the Research Excellence Award presented at the International Material Scientist Awards.[1]

Keywords

Functional Composites, Composite Materials, Materials Science, Advanced Materials, Structural Materials, Materials Engineering, Material Characterization, Research Impact.

Introduction

Functional composite materials have become increasingly important in modern engineering because of their enhanced mechanical, thermal, electrical, and structural properties. Research involving composite materials contributes to applications in transportation, energy, aerospace, construction, and advanced manufacturing. Scientific investigations in this area support the development of innovative materials with improved functionality and performance characteristics.[2]

Research Profile

The research profile of Yan Qin includes 127 indexed documents, 2,030 citations, and an h-index of 21. These indicators demonstrate extensive scholarly productivity and substantial academic influence within materials science and functional composite research. The citation record reflects broad recognition of the research contributions within the scientific community.[1]

  • Affiliated with Wuhan University of Technology.
  • Research specialization in functional composites.
  • One hundred twenty-seven indexed publications.
  • Citation count exceeding two thousand citations.
  • h-index value of 21.
  • Significant contribution to advanced materials research.

Research Contributions

Research activities associated with Yan Qin include studies involving composite materials, material design, structural performance, and functional properties of advanced materials. Such investigations contribute to the development of high-performance materials suitable for industrial and technological applications.[2]

  • Research involving functional composite materials.
  • Investigation of advanced material properties.
  • Material characterization and performance analysis.
  • Development of high-performance composite systems.
  • Contribution to applied materials engineering.

Publications

The publication record demonstrates extensive scientific productivity and sustained scholarly activity. The large number of indexed publications contributes to international visibility and supports knowledge dissemination in the field of functional composites and advanced materials.[1]

  1. Research articles on functional composite materials.
  2. Studies involving structural and advanced composites.
  3. Publications related to material characterization.
  4. Research addressing engineering applications of composites.

Representative literature in composite materials and advanced functional systems provides scientific context for the research area and highlights the importance of multifunctional materials in modern engineering applications.[3]

Research Impact

The citation record and h-index indicate substantial scientific influence and recognition by the academic community. The publication and citation metrics demonstrate the dissemination and utilization of research findings within materials science and composite engineering.[1]

Award Suitability

The research achievements, publication productivity, citation performance, and specialization in functional composites support consideration of Yan Qin for the Research Excellence Award. The available bibliometric indicators demonstrate sustained scientific contributions and measurable impact within the field of materials science and advanced composite technologies.[1]

Conclusion

Yan Qin has established a significant academic profile in functional composites through extensive publication activity, substantial citation impact, and contributions to materials science research. The documented scholarly achievements support recognition through the Research Excellence Award and reflect continued engagement in advanced materials and composite engineering research.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Yan Qin, Author ID 35262802300. Scopus. https://www.scopus.com/authid/detail.uri?authorId=35262802300
  2. Chawla, K. K. Composite Materials: Science and Engineering.Β 
    https://doi.org/10.1007/978-0-387-74365-3
  3. Abandoned phenolic aerogel as a carbon source for in-situ carbothermal ceramicization of silicone rubber composites towards superior ablation resistance and thermal insulation.https://www.sciencedirect.com/science/article/abs/pii/S0141391026003174

Seon-Bong Lee | Powder Metallurgy | Innovative Research Award

Innovative Research Award

Seon-Bong Lee
Affiliation Keimyung University
Country South Korea
Scopus ID 15837361800
Documents 56
Citations 373
h-index 11
Subject Area Powder Metallurgy
Event International Material Scientist Awards
ORCID 0000-0002-8355-1216

Seon-Bong Lee

Institution: Keimyung University, South Korea

Seon-Bong Lee is a researcher affiliated with Keimyung University whose scholarly activities primarily focus on powder metallurgy and materials science. His publication record, citation profile, and scientific contributions indicate sustained engagement in materials processing, metallic powders, sintering technologies, and engineering applications associated with advanced materials research.[1]

Abstract

This academic recognition article summarizes the research achievements and scientific profile of Seon-Bong Lee. The evaluation considers scholarly productivity, citation influence, subject expertise, and contributions to powder metallurgy. The available bibliometric indicators demonstrate sustained participation in materials science research and support recognition within the framework of the Innovative Research Award.[1]

Keywords

Powder Metallurgy, Materials Science, Sintering Technology, Metallic Materials, Advanced Materials, Engineering Materials, Research Impact, Scientific Publications.

Introduction

Powder metallurgy has become an essential discipline in modern materials engineering owing to its role in producing advanced components with controlled microstructures and mechanical properties. Researchers working in this field contribute to industrial manufacturing, energy applications, transportation systems, and emerging engineering technologies. The academic activities of Seon-Bong Lee align with these developments through contributions to materials processing and metallurgical research.[2]

Research Profile

The research profile of Seon-Bong Lee includes 56 indexed documents, 373 citations, and an h-index of 11. These indicators demonstrate measurable scholarly influence and continued participation in scientific publishing. His work primarily addresses powder metallurgy, material processing, and engineering applications relevant to advanced manufacturing technologies.[1]

  • Affiliation: Keimyung University.
  • Country: South Korea.
  • Research area: Powder Metallurgy.
  • Indexed documents: 56.
  • Citation count: 373.
  • h-index: 11.

Research Contributions

The scientific contributions of Seon-Bong Lee include investigations related to powder processing, sintering behavior, material characterization, and performance optimization of engineering materials. These studies support the development of reliable manufacturing methods and contribute to understanding the relationship between processing conditions and material properties.[2]

  • Development of powder processing methodologies.
  • Investigation of sintering mechanisms.
  • Characterization of engineering materials.
  • Evaluation of material properties and performance.
  • Contribution to metallurgical engineering research.

Publications

The publication record demonstrates consistent scientific productivity within materials science and powder metallurgy. Articles indexed in international databases contribute to scholarly visibility and citation impact.[1]

  1. Research articles addressing powder metallurgy applications.
  2. Studies involving metallic material processing technologies.
  3. Investigations of microstructural characterization methods.
  4. Engineering materials performance evaluations.

Representative DOI resources relevant to powder metallurgy include studies published within metallurgical and materials engineering literature.[3]

Research Impact

Citation metrics provide evidence of the academic visibility of the researcher’s contributions. The citation count and h-index indicate that multiple publications have achieved recognition within the scientific community. Such bibliometric indicators are commonly employed to evaluate research influence and scholarly productivity.[1]

Award Suitability

The available research indicators support consideration of Seon-Bong Lee for the Innovative Research Award presented during the International Material Scientist Awards. The combination of publication productivity, citation performance, subject specialization, and continued scientific engagement demonstrates suitability for academic recognition within materials science and powder metallurgy.[1]

Conclusion

Seon-Bong Lee has established a measurable research profile within powder metallurgy and materials science. His scholarly output, citation impact, and research contributions provide a foundation for professional recognition through the Innovative Research Award. The available academic indicators demonstrate continued participation in scientific advancement and materials engineering research.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Seon-Bong Lee, Author ID 15837361800. Scopus. https://www.scopus.com/authid/detail.uri?authorId=15837361800
  2. Effect of Load Partitioning Under Different Pressing Temperature Conditions During 2P1A Compaction on the Densification Behavior and Electromagnetic Properties of Fe–5.0 wt.%Si SMC Core. https://www.mdpi.com/2075-4701/16/6/669
  3. Effect of MoS2 and Graphite Lubricant Contents on the Mechanical Properties of Fe–5.0 wt.%Si Soft Magnetic Composites. https://www.mdpi.com/1996-1944/19/12/2649

 

Hossein Baradaran | Solid Mechanics | Best Researcher Award

Best Researcher Award

Hossein Baradaran
Shahid Bahonar University of Kerman

Hossein Baradaran,
Affiliation Shahid Bahonar University of Kerman
Country Iran
Scopus ID 34969045000
Documents 22
Citations 422
h-index 12
Subject Area Solid Mechanics
Event International Material Scientist Awards

Hossein Baradaran, a researcher affiliated with Shahid Bahonar University of Kerman, Iran. His academic profile demonstrates sustained research activity in solid mechanics and related engineering disciplines. Bibliometric indicators, publication output, citation records, and research impact collectively support his recognition within the International Material Scientist Awards program.[1]

Abstract

This article evaluates the academic achievements and research impact of Hossein Baradaran based on publication productivity, citation metrics, and scholarly contributions. The available bibliometric evidence indicates an established research profile in solid mechanics and demonstrates measurable scientific influence within the international research community.[1]

Keywords

Best Researcher Award; Hossein Baradaran; Solid Mechanics; Research Impact; Citation Analysis; Engineering Research; Scientific Publications; International Material Scientist Awards.

Introduction

Research awards recognize scientists who contribute substantially to their disciplines through publications, innovation, and measurable scholarly influence. The Best Researcher Award emphasizes research quality, scientific productivity, and international visibility. Hossein Baradaran’s academic profile demonstrates these characteristics through published studies and citation performance within the field of solid mechanics.[2]

Research Profile

Hossein Baradaran is affiliated with Shahid Bahonar University of Kerman. According to Scopus records, the researcher has authored 22 indexed documents, accumulated 422 citations, and achieved an h-index of 12. These indicators reflect sustained scholarly productivity and measurable academic influence.[1]

  • Research specialization in solid mechanics.
  • Internationally indexed scientific publications.
  • Documented citation impact.
  • Active participation in engineering research.

Research Contributions

The research activities of Hossein Baradaran have contributed to the advancement of solid mechanics through analytical investigations, engineering studies, and peer-reviewed publications. The citation performance of the published work indicates continuing relevance and utilization by other researchers in related scientific fields.[3]

  • Publication of scientific journal articles.
  • Contribution to theoretical and applied mechanics.
  • Research dissemination through international databases.
  • Scientific influence reflected through citations.

Publications

The publication record of the researcher demonstrates consistent scientific productivity. Indexed articles contribute to the literature of solid mechanics and engineering sciences while supporting knowledge dissemination and academic visibility.[1]

  • Total indexed documents: 22.
  • Total citations: 422.
  • h-index value: 12.

Research Impact

Citation metrics provide quantitative evidence of scientific influence. The citation count and h-index achieved by Hossein Baradaran indicate that the published research has received recognition and usage within the scientific community. Such indicators are commonly employed to assess research visibility and scholarly impact.[2]

Award Suitability

The available academic evidence supports the suitability of Hossein Baradaran for recognition under the Best Researcher Award category. The combination of publication output, citation performance, and research contributions aligns with the evaluation principles of the International Material Scientist Awards program.[4]

Conclusion

Hossein Baradaran has developed a recognized scholarly profile characterized by scientific publications, citation impact, and contributions to solid mechanics. Bibliometric indicators and research productivity provide evidence supporting academic recognition and consideration for the Best Researcher Award.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Hossein Baradaran, Author ID 34969045000. Scopus.
    https://www.scopus.com/authid/detail.uri?authorId=34969045000
  2. Numerical study of large deflection of nanobeam according to the MCST and SE
    https://www.tandfonline.com/doi/abs/10.1080/15376494.2023.2180120
  3. A homotopy analysis solution to large deformation of a nanowire based on nonlocal elasticity theory
    https://link.springer.com/article/10.1007/s40314-022-02010-1
  4. Three-dimensional free vibrations analysis of functionally graded rectangular plates by the meshless local Petrov–Galerkin (MLPG) method
    https://www.sciencedirect.com/science/article/abs/pii/S009630031730067X

Mahdi Gerdooei | Mechanical Properties of Materials | Best Researcher Award

Assoc. Prof. Dr. Mahdi Gerdooei | Mechanical Properties of Materials | Best Researcher Award

Assoc. Prof. Dr. Mahdi Gerdooei | Shahrood university of technology | Iran

Dr. Mahdi Gerdooei is an accomplished Associate Professor of Mechanical Engineering at Shahrood University of Technology in Iran. He earned all of his degrees at Amirkabir University of Technology, where he completed his doctoral research on the effects of strain rate on sheet metal formability. Over nearly two decades, he has held leadership and teaching roles, including founding a laboratory focused on metal forming mechanics. His professional journey includes serving as dean of the mechanical engineering faculty and providing industry consulting on coil-spring design and fatigue analysis. A longstanding member of Iran’s manufacturing and mechanical engineering communities, Dr. Gerdooei’s career bridges rigorous academic research and practical industrial application.

Profiles

SCOPUS

ORCID

GOOGLESCHOLAR

Education

Dr. Gerdooei earned his doctoral degree in Mechanical Engineering from Amirkabir University of Technology, where his research delved into theoretical and experimental aspects of strain rate effects on the formability of sheet metals. Building on a strong postgraduate foundation in hot forging process design, his academic trajectory also includes a rigorous undergraduate degree in Mechanical Engineering from the same universityβ€”each stage reinforcing his expertise in deformation mechanics and advanced manufacturing methods.

Professional Experience

Dr. Gerdooei’s professional journey seamlessly integrates academic leadership and industry engagement. He established and directs a specialized Laboratory for Mechanics of Materials and Metal Forming at his university, serving both scientific and industrial communities. As Dean of the Faculty of Mechanical Engineering, he guided academic development and strategic initiatives. Recently, he has extended his expertise to industry by consulting for a spring design and manufacturing company, contributing to vehicle spring design and fatigue analysis, while simultaneously leading process development for new engineering products.

Research Interests

Dr. Gerdooei’s research interests are rooted in advanced forming processes, including bulk and sheet metal forming, and extend to spring design, biomaterial manufacturing, and structural failure analysis. He is particularly drawn to biomaterial production for dental implants and the design of springs from novel materials. Fatigue and failure of structures are studied using both macroscopic and micromechanical approaches. His work also engages experimental and numerical methods to explore strain-rate effects and formability across diverse materials.

Award

Dr. Gerdooei has earned recognition through his leadership and scholarly contributions. He founded a research laboratory and guided the mechanical engineering faculty as dean. His membership in national engineering societies reflects his esteemed standing in Iran’s professional community. These accomplishments indicate his significant impact in advancing both academic research and practical engineering applications.

Publication Top Notes

Enhancing plasticity modeling of DC04 steel using strain-dependent Hill 1948 and BBC 2005 yield criteria: a novel 2D-DIC approach to track anisotropy

Journal: International Journal of Solids and StructuresΒ 
Authors: Shahram Amirabdollahian; Mahdi Gerdooei

Innovative dual-pressure method for T-shaped branch production using elastomeric tools

Journal: Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering ManufactureΒ 
Authors: Mirsadegh Akbarian Kuhkheyli; Mahdi Gerdooei; Seyed Vahid Hosseini; Hasan Ghafourian Nosrati

Rubber mandrel and internal pressure effects on thin-walled tube bending: a comparative study

Journal: The International Journal of Advanced Manufacturing TechnologyΒ 
Authors: Majid Askari Sayar; Mahdi Gerdooei; Hamidreza Eipakchi; Hasan Ghafourian Nosrati

Analytical approach to investigate the effects of through-thickness stress on springback in bending of isotropic sheet metal

Journal: The International Journal of Advanced Manufacturing TechnologyΒ 
Authors: Mohammad Reza Movahedi; Mahdi Gerdooei

Implementation of the extended maximum force criterion (EMFC) for evaluating the pressure-dependent forming limit diagrams (PD-FLD) in the tube bulging process

Journal: The International Journal of Advanced Manufacturing TechnologyΒ 
Authors: Iman Abbasi; Mahdi Gerdooei; Hasan Ghafourian Nosrati

Conclusion

Dr. Mahdi Gerdooei exemplifies a professional who melds academic rigor with industrial relevance. His deep expertise in mechanical engineeringβ€”especially metal forming, plasticity, and biomaterialsβ€”complements his roles as educator, researcher, and consultant. His leadership in establishing a materials and forming lab and steering academic programs reflects his commitment to innovation and collaboration. Through his scholarly output and engagement with industry, Dr. Gerdooei continues to drive forward both theoretical development and practical engineering solutions.

Mr. Ravirajsinh Jadav | Composite Materials | Best Researcher Award

Mr. Ravirajsinh Jadav | Composite Materials | Best Researcher Award

Ravirajsinh . Jadav is a passionate Ph.D. research scholar in Physics at Saurashtra University, specializing in electrochemical energy storage technologies. His work focuses on the development of advanced battery and supercapacitor materials, with an emphasis on sustainability and performance. With experience as a visiting professor and research supervisor, he brings a strong background in teaching, laboratory work, and academic leadership. Fluent in English, Hindi, and Gujarati, Ravirajsinh combines technical expertise with a dedication to innovation and knowledge-sharing in the field of physics.

Mr.Ravirajsinh Jadav , Gujarat Arts and Science College, India

Profile

SCOPUS

ORCID

GOOGLE SCHOLAR

Education πŸŽ“

Ravirajsinh J. Jadav is currently pursuing a Doctor of Philosophy (Ph.D.) in Physics at Saurashtra University, Rajkot, with an expected completion date of December 2024. His research focuses on metal sulphides and energy storage devices. He completed his Master of Science (M.Sc.) in Physics from Marwadi University, Rajkot, in 2020, achieving a CGPA of 8.3. Prior to that, he earned his Bachelor of Science degree in Physics from Saurashtra University, Rajkot, in 2018 with a CGPA of 7.3.

Experience πŸ›οΈ

Ravirajsinh has been actively engaged as a Research Scholar in Physics since January 2022 at Gujarat Arts & Science College, Ahmedabad. In this role, he supervises M.Sc. Physics research projects and contributes to the development of undergraduate physics curricula. He is also recognized for his strong expertise in physics lab practicals. Previously, he served as a Visiting Professor in Physics from January 2020 to December 2021 at Shree M. P. Shah Arts & Science College in Surendranagar. During this time, he designed and implemented innovative undergraduate courses, supervised student projects, and took on responsibilities in administration, examinations, and team leadership.

Research Focus πŸ”¬

Ravirajsinh’s primary research interests lie in the field of electrochemical energy storage technologies. He is particularly focused on the development and optimization of battery and supercapacitor materials, including novel cathode and anode materials with high energy densities. His work also extends to identifying efficient materials for supercapacitors and integrating energy storage systems with sustainability-driven practices such as life cycle analysis and recycling strategies.

Publications πŸ“˜

Eco-Friendly Fabrication of Crβ‚‚Vβ‚„O₁₃ Nanoparticles: A Promising Material for Photocatalysis, Electrochemical Sensing, and Supercapacitor Applications
Authors: Vijay Dubey, Ketan D. Parikh, Ravirajsinh J. Jadav, Devarshi H. Vyas, B. Avinash, C. R. Ravikumar, A. Naveen Kumar, H. Seshagiri Rao, Deepak Kumar, Suresh Ghotekar
Year: 2025
Journal: Journal of Cluster Science

Exploring the Potential Energy Storage Capability of NiCdSβ‚‚ Nanocomposites: Insights Through Promising Electrochemical, Impedance and Dielectric Analysis
Authors: Ravirajsinh J. Jadav, Ketan Parikh, Vijay R. Dubey, Devarshi H. Vyas
Year: 2025
Journal: Journal of Materials Science

Structural, Optoelectronic, and Antibacterial Properties of Cuβ‚“Mn₁₋ₓS Nanoparticles Fabricated by Co-precipitation Approach
Authors: Devarshi Vyas, Ketan Parikh, Ravirajsinh Jadav, Vijay Dubey, Bharat Kataria, Suresh Ghotekar
Year: 2024
Journal: Journal of Sol-Gel Science and Technology

Recent Advancements in Fabrication of NdVOβ‚„ Nanomaterials and Their Versatile Applications in Catalysis and Biomedical
Authors: Vijay Dubey, Ketan D. Parikh, Ravirajsinh J. Jadav, Devarshi H. Vyas, Yogita Abhale, Alejandro PΓ©rez-Larios, Kun-Yi Andrew Lin, Ankush Chauhan, Suresh Ghotekar
Year: 2024
Journal: Topics in Catalysis

Electrical and Antibacterial Study of Hydrothermally Synthesized Ξ±-Manganese Sulphide Nanoparticles
Authors: Ravirajsinh J. Jadav, Devarshi H. Vyas, Vijay R. Dubey, Ketan D. Parikh, Keyur D. Bhatt, Chaitanya K. Jha
Year: 2024
Journal: IOSR Journal of Applied Physics (IOSR-JAP)

Prof Norasikin Othman | Materials Science | Best Researcher Award

Prof Norasikin Othman | Materials Science | Best Researcher Award

Prof. Dr. Norasikin Othman is a distinguished professor in the Chemical Engineering Department at Universiti Teknologi Malaysia (UTM). With a career spanning over three decades, she has made significant contributions to chemical engineering research, particularly in liquid membrane technology and solvent extraction processes. She is a passionate educator, accomplished researcher, and active professional member in renowned engineering societies.

Prof Norasikin Othman, Universiti Teknologi, MalaysiaΒ 

Profile

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πŸŽ“ Academic Background

Prof. Dr. Norasikin Othman is a highly accomplished Chemical Engineer πŸ—οΈ with an extensive academic background from Universiti Teknologi Malaysia (UTM). She earned her PhD in Chemical Engineering πŸ§ͺ in 2006, specializing in metal recovery using emulsion liquid membrane technology. Prior to this, she obtained her Master of Engineering (M.Eng.) in Chemical Engineering βš™οΈ in 1997, enhancing her expertise in separation processes. Her journey began with a Bachelor’s degree in Chemical Engineering πŸ”¬ in 1992, building a strong foundation in industrial applications. With her vast knowledge, she has contributed significantly to research, innovation, and academic excellence. πŸš€

πŸ‘¨β€πŸ« Professional ExperienceΒ 

Prof. Dr. Norasikin Othman is a distinguished researcher and chemical engineering expert βš™οΈ with extensive experience in academic evaluations, journal reviewing, and scientific conferences 🌍. She serves as a reviewer for high-impact Q1 & Q2 journals πŸ“–, including Journal of Separation and Purification, Desalination, and Chemical Engineering Research & Design. She is also a technical evaluator panel member for major research grants, including GUP TIER 1, FRGS, and YUTP πŸ†. A sought-after invited speaker 🎀, she has shared her insights at ICoST, ICCSS, and UTM seminars. Her contributions extend to book evaluations, panel reviews, and scientific committee roles. πŸ…

πŸ† Honors & AwardsΒ 

Prof. Dr. Norasikin Othman has received numerous prestigious awards πŸ… for her contributions to chemical engineering research and innovation πŸ”¬. She has won multiple Gold, Silver, and Bronze Medals πŸ₯‡πŸ₯ˆπŸ₯‰ at INATEX, MTE, and Seoul International Invention Fair, recognizing her groundbreaking work in silver recovery, dye recovery, and high-voltage demulsification βš™οΈ. She also received the Excellence Service Award (2008, 2012) for her dedication to academia πŸŽ“. Notably, she earned the Best Award (MTE 2010) and Publication Award (2007) πŸ“–. Her Bio-Inno Awards highlight her contributions to biotechnology and applied sciences, making her a distinguished researcher in her field. πŸš€

πŸ”¬ Research Focus

Prof. Dr. Norasikin Othman specializes in separation processes βš—οΈ, with a focus on solvent extraction and liquid membrane technology 🌊. Her research aims to develop synergistic liquid membranes for removing and recovering pollutants from industrial wastewater 🚰. She explores reactive dye removal, phenol extraction kinetics, and chromium removal using eco-friendly membranes πŸƒ. Her innovative work on green liquid membrane formulation enhances metal and dye recovery, contributing to sustainable environmental solutions 🌍. By integrating advanced membrane fabrication 🏭, she addresses critical challenges in wastewater treatment, promoting cleaner industrial practices and efficient resource recovery πŸ”„.

πŸ“š Publications

Separation of silver from photographic wastes by emulsion liquid membrane system πŸ§ͺ
πŸ‘¨β€πŸ« Authors: N. Othman, H. Mat, M. Goto
πŸ“– Journal: Journal of Membrane Science 282 (1-2), 171-177 (2006)
πŸ“Š Citations: 210

Review of research progress on aluminium–magnesium dissimilar friction stir welding πŸ”©
πŸ‘¨β€πŸ« Authors: L.H. Shah, N.H. Othman, A. Gerlich
πŸ“– Journal: Science and Technology of Welding and Joining 23 (3), 256-270 (2018)
πŸ“Š Citations: 160

Performance of plastic wastes in fiber-reinforced concrete beams πŸ—οΈ
πŸ‘¨β€πŸ« Authors: F.S. Khalid, J.M. Irwan, M.H.W. Ibrahim, N. Othman, S. Shahidan
πŸ“– Journal: Construction and Building Materials 183, 451-464 (2018)
πŸ“Š Citations: 128

Easy removal of phenol from wastewater using vegetable oil-based organic solvent in emulsion liquid membrane process πŸŒ±πŸ’§
πŸ‘¨β€πŸ« Authors: N. Othman, N.F.M. Noah, L.Y. Shu, Z.Y. Ooi, N. Jusoh, M. Idroas, M. Goto
πŸ“– Journal: Chinese Journal of Chemical Engineering 25 (1), 45-52 (2017)
πŸ“Š Citations: 111

Highly selective transport of palladium from electroplating wastewater using emulsion liquid membrane process βš›οΈ
πŸ‘¨β€πŸ« Authors: N.F.M. Noah, N. Othman, N. Jusoh
πŸ“– Journal: Journal of the Taiwan Institute of Chemical Engineers 64, 134-141 (2016)
πŸ“Š Citations: 90

Assoc. Prof. Dr Sanjib Bhattacharya | Composite Materials | Best Researcher Award

Assoc. Prof. Dr Sanjib Bhattacharya | Composite Materials | Best Researcher Award

Assoc. Prof. Dr. Sanjib Bhattacharya is a leading researcher in condensed matter physics, nanocomposites, and dielectric spectroscopy. He earned his Ph.D. in Science from the Indian Association for the Cultivation of Science and Jadavpur University (2008). Currently, he serves as an Associate Professor and Deputy Director at the UGC-Human Resource Development Centre, University of North Bengal, India. His expertise in chalcogenide glasses, lithium-ion conductors, and advanced energy materials has driven innovations in electronics, renewable energy, and battery technology. With over 60 publications πŸ“–, multiple research grants πŸ’°, and mentorship of Ph.D. scholars πŸŽ“, he is a top contender for the Best Researcher Award πŸ†.

Assoc. Prof. Dr Sanjib Bhattacharya, University of North Bengal, India

Profile

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Education πŸŽ“

Assoc. Prof. Dr. Sanjib Bhattacharya earned his M.Sc. in Physics from the University of North Bengal (2002) πŸ›οΈ and later obtained a Ph.D. in Science from the Indian Association for the Cultivation of Science and Jadavpur University (2008) πŸ“šπŸ”¬. His doctoral research focused on condensed matter physics, nanocomposites, and dielectric spectroscopy βš‘πŸ“‘, leading to significant advancements in solid-state physics and energy materials πŸ”‹. His expertise in glass nanomaterials and electrical transport properties has made a profound impact on renewable energy and electronics research, solidifying his place as a leading scientist in materials science πŸ†.

Experience πŸ›οΈ

Assoc. Prof. Dr. Sanjib Bhattacharya is a renowned physicist with over 17 years of research experience and 13 years of teaching experience in Engineering Physics, Materials Science, and Solid-State Devices πŸ“‘βš‘. Since 2020, he has served as an Associate Professor & Deputy Director at the University of North Bengal (HRDC & Physics) πŸŽ“, contributing to advanced materials research and faculty development programs πŸ“š. Previously, he was a Professor at Siliguri Institute of Technology (2010-2020) πŸ›οΈ, focusing on glass nanocomposites, dielectric spectroscopy, and lithium-ion conductors πŸ”‹. His work continues to impact science and technology globally 🌍.

Awards and Achievements πŸ†

Assoc. Prof. Dr. Sanjib Bhattacharya has made remarkable contributions to materials science and condensed matter physics, earning prestigious awards and leading major research projects. He is the Principal Investigator (PI) of DST and CSIR-funded projects on chalcogenide glassy alloys and lithium-ion conductors πŸ”‹. He received the INSA Visiting Scientist Award (2012) πŸ…, Teacher Award (2018) πŸŽ“, and multiple Outstanding Paper Awards (2017, 2018) πŸ“œ. A reviewer for top journals πŸ“–, he also earned Elite Grade in NPTEL’s Solid State Physics Course πŸ“‘. His scientific excellence has significantly advanced energy storage and electronic materials ⚑.

Research Focus πŸ”¬

Assoc. Prof. Dr. Sanjib Bhattacharya specializes in Condensed Matter Physics and Composite Materials, focusing on electrical and dielectric properties of disordered solids πŸ—οΈ. His expertise includes Chalcogenide Glassy Alloys 🏺, Lithium-Ion Conductors πŸ”‹, and Glass-Nanocomposites 🏒. He investigates dielectric spectroscopy πŸ“‘, micro-hardness studies πŸ› οΈ, and magnetic properties of transition metal-doped materials 🧲. His research also involves XRD, FESEM, and HRTEM for structural characterization πŸ”¬. By exploring ion and electron transport mechanisms ⚑, his work contributes to energy storage, advanced electronics, and solid-state physics, paving the way for next-generation materials and devices πŸš€.

Publication Top Notes πŸ“–

Electrical properties and electrochemical performances of Na2O doped solid electrolytes for supercapacitor application

Short and long range ordering on dielectric relaxation of AgI doped glass-ceramic

Dielectric properties, relaxation time and conduction behavior of MoO3 doped V2O5–ZnO–CuO glassy semiconducting system

Efficient and Lead-Free Perovskite Solar Cells Based on Defect-Ordered Methyl Ammonium Antimony Iodide

Higher Efficiency and Stability in Planar Homojunction Hybrid Antimony (MA3Sb2I9)- Based Perovskite Solar Cells

Assist. Prof. Dr Chuan-De Liu | Materials in Aerospace Applications | Best Researcher Award

Assist. Prof. Dr Chuan-De Liu | Materials in Aerospace Applications | Best Researcher Award

Assist. Prof. Dr. Chuan-De Liu is a Lecturer at the School of Future Technology, Nanjing University of Information Science and Technology πŸ›οΈ. He holds a Ph.D. in Electrical Engineering from Southeast University (2022) and was a CSC Visiting Scholar at ENSTA-IP Paris, France (2020) 🌍. His research focuses on robotic dexterous manipulation, AI-augmented visual servoing, and autonomous unmanned systems 🚁. He has published high-impact articles in IEEE-CYBER, Complex & Intelligent Systems, and Industrial Robot πŸ“š. His expertise in robotics, AI-driven control, and industrial automation makes him a leading innovator in intelligent robotic systems πŸ†βœ¨.

Assist. Prof. Dr Chuan-De Liu, School of Future Technology, China

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EducationπŸŽ“πŸ“š

Assist. Prof. Dr. Chuan-De Liu earned his Ph.D. in Electrical Engineering from Southeast University in March 2022 πŸŽ“, where he specialized in robotic planning, control, and AI-driven automation πŸ€–. In September 2020, he was a CSC Visiting Scholar in Robotics at ENSTA-IP Paris, France 🌍, gaining international experience in robotic dexterous manipulation and autonomous systems πŸš€. He previously completed his Master’s degree (MEng) in Electrical Engineering at Southeast University in December 2016 ⚑. His strong academic background in robotics, AI, and intelligent control systems provides the foundation for his cutting-edge research in automation and robotics πŸ”¬βœ¨.

Honors and AwardsπŸ†

Assist. Prof. Dr. Chuan-De Liu has received multiple prestigious awards for his contributions to robotics and engineering πŸ€–. In 2023, he was honored as the NUIST Excellent Supervisor for Undergraduate Thesis πŸ›οΈ. He was awarded the China Scholarship Council (CSC) Scholarship (2019) for his research in robotics at ENSTA-IP Paris, France 🌍. His Bionic-Robot research earned him a Finalist position for the Best Student Paper Award at IEEE-CYBER 2019 πŸ“œ. Additionally, he won Jiangsu Province’s Outstanding Master’s Thesis Award (2018) πŸ… and secured the NaRi-Relays Scholarship (2016) for excellence in electrical engineering ⚑.

Research FocusπŸ€–

Assist. Prof. Dr. Chuan-De Liu’s research focuses on robotics, AI-driven automation, and intelligent control systems πŸš€. His expertise includes robotic dexterous manipulation, autonomous UAV systems, and motion planning for industrial robots πŸ€–. He develops advanced control techniques for floating wind turbines, bionic-robot movement planning, and high-precision sensing systems ⚑. His work in disturbance observer-based sliding mode control, satellite-borne calibration, and robotic vision processing enhances autonomous system performance 🌍. With a strong foundation in robotic safety, real-time motion planning, and intelligent inspection platforms, his research contributes significantly to next-generation automation and AI-driven robotics πŸ†βœ¨.

PublicationsπŸ“š

Reconfigurable High-Precision AC Voltage Detector for Aerospace Applications
πŸ–ŠοΈ Authors: L. Jiang, L. Zhu, C. Liu, Q. Hou
πŸ“– Journal: Measurement (2025)

An Adaptive Dual-Docking Force Control of Ship-Borne Manipulators for UAV-Assisted Perching
πŸ–ŠοΈ Authors: C. Liu, S. Fang, J. Li, B. Gao
πŸ“– Journal: IEEE-CYBER (2024)

High-Precision and Wide-Range Temperature Measurement and Control System of Satellite-Borne Calibration Blackbody
πŸ–ŠοΈ Authors: L. Jiang, C. Liu, L. Zhu, Z. Zhang, Q. Hou
πŸ“– Journal: Measurement (2024)

A Self-Constructed CNN Classifier for Keyhole Detection and Location
πŸ–ŠοΈ Authors: J. Ye, B. Gao, H. Chen, W. Xu, L. Zhong, C. Liu
πŸ“– Journal: IEEE Sustainable Power and Energy Conference (iSPEC) (2020)

Towards a Balancing Safety Against Performance Approach in Human–Robot Co-Manipulation for Door-Closing Emergencies
πŸ–ŠοΈ Authors: C. Liu, C. Yu, B. Gao, S.A. Ali Shah, A. Tapus
πŸ“– Journal: Complex & Intelligent Systems (2022)

Self-Protective Motion Planning for Mobile Manipulators in a Dynamic Door-Closing Workspace
πŸ–ŠοΈ Authors: C. Liu, B. Gao, C. Yu, A. Tapus
πŸ“– Journal: Industrial Robot (2021)

Movement Planning and Control of an Overhead Power Transmission Line Inspection Bionic-Robot
πŸ–ŠοΈ Authors: C. Liu, J. He, B. Gao
πŸ“– Journal: IEEE-CYBER (2019)

These publications highlight Dr. Liu’s expertise in robotics, AI-driven control, intelligent automation, and precision engineering πŸ€–πŸš€.

Mr Aricson Pereira | Composite Materials | Industrial Impact Award

Mr Aricson Pereira | Composite Materials | Industrial Impact Award

Mr. Aricson Pereira is an accomplished industrial engineer specializing in process optimization, automation, and lean manufacturing. He holds a Master’s in Chemical Engineering from the University of Louisiana at Lafayette and is currently pursuing a Project Management Certification at UC Berkeley. With extensive experience at Procept Biorobotics, Cepheid Inc., and JSR Micro Inc., he has led impactful projects, including ultrasonic welding optimization, industrial automation, and manufacturing process improvements. His innovations have saved millions in costs and boosted productivity, earning him multiple industry awards. His contributions continue to shape the future of industrial engineering. πŸ†βš™οΈπŸš€

Mr Aricson Pereira, Procept Biorobotics, United States

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Education πŸŽ“πŸ“š

Mr. Aricson Pereira holds a Master of Science in Chemical Engineering from the University of Louisiana at Lafayette (2012-2014) and a Bachelor of Engineering in Chemical Engineering from Pune University (2005-2009). His strong academic foundation in chemical and industrial engineering has enabled him to excel in process optimization, automation, and manufacturing systems. Committed to continuous learning, he is currently pursuing a Project Management Certification from UC Berkeley, further strengthening his expertise in industrial project management and leadership. His educational journey reflects his dedication to driving innovation in engineering and manufacturing. πŸ†πŸ”¬πŸ­

Professional Experience πŸŒπŸ”¬

Mr. Aricson Pereira is currently leading New Product Introduction (NPI) efforts at Procept Biorobotics, specializing in robotic surgery tools. He defines qualification strategies (IQ/OQ/PQ/EQ/PPQ) for new processes and equipment, optimizing process parameters through DOE (Design of Experiments) and statistical analysis. He collaborates with R&D and supplier engineering teams for product design, writes test plans, and ensures compliance with sterilization protocols. His expertise in Gage R&R, Process Capability Analysis (CpK/PpK), and pFMEA has helped develop robust validation plans (MVPs) for manufacturing lines. His key achievement includes leading the Hydros System launch, a milestone in robotic surgery. πŸ€–πŸ“Š

Research Focus πŸ”¬βš™οΈ

Mr. Aricson Pereira’s research spans advanced materials, smart manufacturing, and industrial process optimization. His expertise includes electromagnetic wave absorption, nanomaterials for air pollution mitigation, and metamaterial-based selective reflective films. He explores MOFs, perovskite solar cells, and micro/nanobot fabrication for biomedical applications. His industrial research focuses on lean manufacturing, AI-driven inventory management, and sustainable sterilization technologies for medical devices. With a strong foundation in electrorheology and polymer composites, he integrates AI, machine learning, and automation in high-volume manufacturing and supply chains, making a significant industrial impact. His work bridges materials science, engineering, and smart manufacturing. βš‘πŸ­πŸ€–

Publications πŸ“šπŸ”¬

Rose-derived porous carbon and in-situ fabrication of cobalt/nickel nanoparticles composites as high-performance electromagnetic wave absorber
πŸ“– Engineered Science, 2024
✍️ A. Pereira, W. Yu, Z. Wang, J. Lin, Y. Xiao, L. Zhu, J. Huang, Z. Guo, Y. Min

Electrorheology of diamond/PDMS nanofluids in steady and oscillatory shear
πŸ“– Applied Rheology, 2014
✍️ A. Pereira, C. McIntyre

Simulation Calculation of Selective Reflective Films based on Metamaterials and Prediction of Color in Light Filter with Machine Learning
πŸ“– Engineered Science, 2024
✍️ HZ Xiangtian Gao, Ming Yang, Aricson Pereira, Sijie Guo

Exploring the Potential of Transforming Sustainable Waste Thermoplastics into Liquid Petrochemicals
πŸ“– ES Energy & Environment, 2024
✍️ ST Man Vir Singh, Aricson Pereira, Muneesh Sethi, Shashank Srivastav, Khalid …

Progress of MOFs and their derivatives for mitigating air pollution
πŸ“– Advanced Composites and Hybrid Materials, 2024
✍️ X. Duan, A. Pereira, X. Chen, C. Li, E. Witherspoon, E. Burcar, Z. Wang …

Optimizing high-mix, high-volume advanced healthcare manufacturing: implementation and impact of the production wheel framework
πŸ“– International Journal of Lean Six Sigma, 2025
✍️ R. Gurumurthy, A. Pereira, CM Laux

From Concept to Creation: Micro/Nanobot Technology from Fabrication to Biomedical Applications
πŸ“– Engineered Science, 2025
✍️ H. Bahaar, A. Pereira, BS Kumar, SG Reddy, Z. Guo, TX Liu

πŸ”₯ Mr. Aricson Pereira’s research contributions span advanced materials, nanotechnology, AI-driven manufacturing, and lean production systems, making him a leading figure in industrial innovation and materials science. βš™οΈπŸ­πŸ€–

Dr Ting Li | Composite Materials | Best Researcher Award

Dr Ting Li | Composite Materials | Best Researcher Award

Dr Ting Li, Ningbo Jiangong Engineering Group Co., Ltd. China

Dr. Ting Li, a distinguished researcher in civil engineering, specializes in fiber-reinforced polymer (FRP) materials for concrete structures exposed to fire. With a Ph.D. from Southeast University, China, and co-supervised research at EPFL, Switzerland, Dr. Li has advanced the field through innovations like basalt-phenolic FRP rebars and fire-resistant RC beams. He has authored impactful papers in journals such as Construction and Building Materials and holds patents on FRP technologies. As a project leader, he excels in team management and materials development, driving transformative contributions to structural engineering and materials science. πŸ§ͺπŸ”₯πŸ“š

Publication Profile

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Academic Pursuits πŸŽ“

Dr. Ting Li has an outstanding educational background in civil engineering and structural engineering. He earned his Ph.D. from Southeast University, China (2016–2022), focusing on fiber-reinforced polymer (FRP) materials in fire-exposed concrete structures. During his Ph.D., he published six papers, received two patents, and was honored with a Jiangsu Province research innovation fund. From 2020–2021, he conducted co-supervised Ph.D. research at EPFL, Switzerland, publishing in a top journal. Dr. Li holds an M.Sc. in Structural Engineering (2013–2016) from Xi’an University of Architecture and Technology and a B.Sc. in Civil Engineering (2009–2013) from Henan University, excelling in advanced mathematics and statistics. πŸŽ“πŸ”¬πŸ“š

Professional ExperienceπŸ’Ό

Dr. Ting Li is currently an R&D Engineer and Postdoctoral Researcher at Ningbo Construction, China (Oct. 2022 – Sep. 2024). He is actively engaged in strategic projects to explore new markets in the construction industry. His role involves conducting desk research, proposing scientific and technological topics, and developing innovative solutions. Dr. Li also conducts research on new materials using computational software and Excel, analyzing complex data sets to generate practical and optimistic application proposals. His work combines technical expertise and industry-driven innovation, contributing significantly to advancements in construction materials and technologies. πŸ—οΈπŸ”¬πŸ“Š

Contributions and Research Focus πŸ”¬

Dr. Tian Li is an accomplished researcher specializing in structural engineering, advanced composite materials, and fire-resistant technologies for reinforced concrete (RC) structures. His expertise lies in the application of basalt-phenolic FRP (BFRP) rebars to enhance fire resistance and thermal performance in RC beams using NSM (Near Surface Mounted) techniques. He has contributed to key areas such as bond performance improvement, thermal-mechanical coupling environments, and self-sensing materials. With publications in high-impact journals like Construction and Building Materials and patents on fire-resistant technologies, Dr. Li’s research bridges innovation and sustainability in modern construction. πŸ—οΈπŸ”₯πŸ“š.

Publication Top NotesπŸ“„βœ¨

Bond enhancement for NSM FRP bars in concrete using different anchorage systems

Thermophysical and thermomechanical properties of basalt-phenolic FRP rebars under high temperature

Experimental study of traditional Chuan-dou frames infilled with wood panels under in-plane cyclic load

Analysis of Factors Influencing the Damping Performance of Polyurethane with Minimum Particles

Robustness analysis of dynamic properties of polyurethane damping materials based on multi-index control

Out-of-plane behavior of masonry infilled Chuan-dou timber frames

Mechanical and Damping Properties of Graphene-Modified Polyurethane-Epoxy Composites for Structures