Prof Yongfeng Li | Biomaterials | Best Researcher Award

Prof Yongfeng Li | Biomaterials | Best Researcher Award

Prof Yongfeng Li, Forestry College of Shandong Agricultural University, China

Prof. Yongfeng Li, a leading researcher in Wood Science and Technology, holds a Ph.D. from Northeast Forestry University, China. With international experience as a visiting scholar at the University of Maryland and FPInnovations in Canada, he excels in polymer-wood composites, nanotechnology, and sustainable materials. Prof. Li’s groundbreaking research is published in high-impact journals like Nature and ACS Applied Nano Materials. He holds numerous patents, including innovative wood treatments, and has received prestigious awards such as the Shenzong Qi Wood Award. As a project leader and editorial board member, he combines academic excellence with impactful innovation. 🌱🏆📚.

Publication Profile

SCOPUS

ORCID

Academic and Experience 🎓

Prof. Yongfeng Li has a distinguished educational background and professional experience in Wood Science and Technology. He earned his Ph.D. (2008-2012), Master’s (2005-2008), and Bachelor’s (2001-2005) degrees from Northeast Forestry University, China. Prof. Li expanded his expertise through international exposure as a Visiting Scholar at the University of Maryland (2016-2017) in Material Science and Engineering and at FPInnovations in Canada (2011-2012), focusing on wood modification. This blend of advanced education and global experience underpins his leadership in wood science, sustainable materials, and innovative research, cementing his reputation as a prominent figure in his field. 🌳🔬🌍

Accolades and Recognition 🥇

Prof. Yongfeng Li has received numerous prestigious awards and honors throughout his illustrious career. 🌟 In 2019, he became an Editorial Board Member of Advances in Materials. 📘 In 2018, he earned third prize for “National Ecological Civilization & E-Teaching Achievements” 🌍 and was named “Pacemaker to Young Post Expert” at Shandong Agricultural University. 🏅 His first prize in the “Micro-Lecture Competition for Agriculture and Forestry Majors” followed in the same year. 📚 Earlier, he received honors like the Jiangsu High-Level Talent Plan (2015) 💼 and the “SHENZONGQI” Wood Science Paper Prize (2012). 📜 His academic journey is decorated with multiple scholarships, teaching awards, and leadership recognitions. 🎓✨

Scientific and Technological Achievement🌱🏆

Yongfeng Li, Xiaoying Dong, and collaborators have made significant contributions to wood hybrid materials and coatings through patented innovations. A notable patent (ZL201610114880.4) describes a superhydrophobic, oleophobic, antifungal, antibacterial, fire-retardant, and weather-resistant wood modifier, transferred on 30 November 2017 for ¥330,000. Another patent (ZL201610114670.5) covers waterborne wood coatings modified by 2D graphene oxide and 1D nanocellulose, transferred on 1 September 2020 for ¥100,000. Innovative nanoclay (ZL201210287368.1) and POSS (ZL201210287595.4) infiltration methods for hybrid nanocomposites were also patented, transferred in 2020 and 2021, respectively, each for ¥100,000. These advancements highlight breakthroughs in sustainable, functional materials. 🌱🔬✨

Book/Chapter📖

Yongfeng Li has contributed significantly to the field of composite materials and biopolymer grafting through key book chapters. In Advances in Composite Materials – Analysis of Natural and Man-made Materials (2011), Chapter 9 explores “Wood-Polymer Composites,” highlighting innovative approaches to material enhancement (ISBN: 978-953-307-449-8). Additionally, in Biopolymer Grafting: Applications (2017), co-authored with Xiaoying Dong, Chapter 11 delves into “Grafting Modification of Wood for High Performance,” showcasing advancements in biopolymer applications (ISBN: 978-0-12-810462-0). Published by INTECH and Elsevier, these works underscore groundbreaking insights into sustainable and high-performance materials. 📚🌱✨.

Contributions and Research Focus 🔬

Prof. Yongfeng Li’s research primarily revolves around wood science and sustainable materials engineering. He specializes in wood reinforcement and stabilization, polymer-wood composites, and nanotechnology applications. His work includes innovations like epoxy-acrylic polymer filling for wood strengthening, graphene oxide-enhanced coatings, and vacuum-thermo treatments for dimensional stability. Prof. Li’s research also explores environmentally friendly structural materials, such as laminated poplar veneer lumber and in-situ polymerized wood panels. His contributions significantly advance sustainable construction materials, mechanical property enhancement, and green engineering solutions, bridging the gap between academia and industrial applications. 🌱🏗️🧪

Publication Top Notes📄✨

Current utilization of waste biomass as filler for wood adhesives: A review

Enhancing the Mechanical Properties of Waterborne Polyurethane Paint by Graphene Oxide for Wood Products

Acrylic Resin Filling Cell Lumen Enabled Laminated Poplar Veneer Lumber as Structural Building Material

Nanocellulose-reinforced polyurethane as flexible coating for cork floor

Acetylated nanocellulose reinforced hydroxypropyl starch acetate realizing polypropylene replacement for green packaging application

AgCu Nanoparticles as an Antibacterial Coating for Wood

Epoxy-Acrylic Polymer In-Situ Filling Cell Lumen and Bonding Cell Wall for Wood Reinforcement and Stabilization

 

Prof. Dr Yusuf ÖZCAN | Biomaterials | Best Researcher Award

Prof. Dr Yusuf ÖZCAN | Biomaterials | Best Researcher Award

Prof. Dr Yusuf ÖZCAN, Pamukkale University, Turkey

Prof. Özcan is a leading expert in bio-inspired nanomaterials and drug delivery systems, with a focus on advancing both biomedical engineering and environmental sustainability. His pioneering research has led to significant breakthroughs in the development of innovative materials that address critical health challenges and environmental concerns. With a proven track record of successful projects and publications, Prof. Özcan is known for his leadership in the field and his ability to bridge the gap between cutting-edge science and practical applications. His work continues to shape the future of healthcare and environmental solutions. 🌱🔬💉

Publication Profile

GoogleScholar

Orcid

Educational Background 🎓

Prof. Yusuf Özcan holds an M.S. and Ph.D. in Physics Engineering from Hacettepe University, Ankara, Turkey, where he gained expertise in advanced materials and their applications. He completed his B.S. in Physics at Atatürk University, Erzurum, Turkey. Prof. Özcan is currently an Associate Professor at Pamukkale University, Faculty of Technology, Department of Biomedical Engineering, where he has been shaping the future of biomedical technologies since 1992. Additionally, he has collaborated internationally, contributing to research at the National Synchrotron Radiation Research Center in Hsinchu, Taiwan, in 2006-2007. His diverse educational background fuels his innovative research in biomedical engineering. 🎓🔬🌍

Professional Experience and Contributions 💼

Prof. Yusuf Özcan is a distinguished Professor of Biomedical Engineering at Pamukkale University, with over 20 years of expertise in advanced material science. He holds a Bachelor’s in Physics from Atatürk University and a Ph.D. in Physical Engineering from Hacettepe University. His research spans stimuli-responsive polymers, bone tissue engineering, nanocomposites for drug release, and synchrotron-based nanomaterial analysis. Notable works include developing bio-nanocomposites for bone regeneration, hybrid hydrogels for controlled drug release, and eco-friendly biosensors for heavy metal detection. Prof. Özcan’s groundbreaking contributions have advanced biomedical engineering, nanotechnology, and environmental sustainability. 🎓🔬🌱

Research and Innovations

Prof. Yusuf Özcan has led over 20 national and international research projects, including TÜBİTAK and SESAME-supported studies, with an h-index of 10 and over 390 citations. His research focuses on biomedical engineering, nanocomposites, and stimuli-responsive polymers. He has published over 30 peer-reviewed articles in high-impact journals, and is actively working on bio-inspired nanomaterial patents. With collaborations across the globe, including Taiwan’s National Synchrotron Radiation Research Center (NSRRC), Prof. Özcan has made significant strides in advanced drug delivery systems and eco-friendly materials. He is also a member of the Turkish Physical Society. 🔬🌍📚

Research Focus Area 🌱🧬

Prof. Yusuf Özcan’s research primarily focuses on biomedical engineering, nanotechnology, and material science. His work includes the development of advanced biopolymeric nanomaterials for controlled drug delivery systems, innovative bone tissue scaffolds, and eco-friendly biosensors. Prof. Özcan specializes in stimuli-responsive polymers, nanocomposites, and synchrotron-based material analysis. He has made significant contributions to environmental sustainability by creating green materials and eco-friendly sensors for detecting heavy metals. His research extends to the development of hybrid films and microbeads for targeted drug release, enhancing the efficiency of therapeutic treatments. 🧬💊🌿

Publication Top Notes

Structure, antibacterial activity and theoretical study of 2-hydroxy-1-naphthaldehyde-N-methylethanesulfonylhydrazone

Synthesis, characterization, biological activities of dimethyltin (IV) complexes of Schiff bases with ONO-type donors

Characterization and Production of Extracellular Polysaccharides (EPS) by Bacillus Pseudomycoides U10

Structure and characterization of N-(2-hydroxy-1-naphthylidene) threonine

Structural and spectroscopic characteristics of two new dibenzylbutane type lignans from Taxus baccata L.

Crystallographic report: Bis {µ‐[O‐cyclopentyl (4‐methoxyphenyl) dithiophosphonato] 1κ: S, 2κ: S‐[O‐cyclopentyl (4‐methoxyphenyl) dithiophosphonato]‐1κ2S, S′} dicadmium (II)

STRUCTURAL, ELECTRICAL AND OPTICAL PROPERTIES OF THERMALLY EVAPORATED CdSe AND In-DOPED CdSe THIN FILMS.

Micellization behavior of tertiary amine-methacrylate-based block copolymers characterized by small-angle X-ray scattering and dynamic light scattering

trans-Bis [O-2, 4-di-tert-butylphenyl (4-methoxyphenyl) dithiophosphonato-κ2S, S′] nickel (II)

Crystal and Molecular Structures of trans-Nickel (II)-bis [(O-propyln)-(p-methoxyphenyl) dithiophosphonate]

Conclusion

Prof. Dr. Yusuf Özcan’s extensive body of work demonstrates not only scientific excellence but also practical contributions to pressing global challenges, making him a strong and deserving candidate for this award. His innovative approach and global collaboration signify a researcher who is pushing the boundaries of materials science and biomedical engineering.

Omar Khatir | Biomaterials | Best Researcher Award

Omar Khatir | Biomaterials | Best Researcher Award

Dr Omar Khatir, University of Sidi Bel Abbes, Algeria 

Dr. Omar Khatir is an accomplished researcher specializing in biomechanics and biomaterials, with a focus on medical device innovation. 🎓⚙️ Holding a Ph.D. in Mechanical Engineering, his work advances middle ear prostheses and orthopedic implants, utilizing finite element modeling, hydroxyapatite, and honeycomb structures for improved performance. 🦻🦾 Dr. Khatir has authored high-impact publications and presented at prestigious conferences like IConTES 2024 and SNIBIA 2023. 🌍📚 Proficient in tools like MATLAB, Abaqus, and SolidWorks, he bridges academia and industry through teaching, research, and production management. His contributions enhance healthcare technology and patient outcomes, cementing his status as a leader in the field. 🌟💡

Publication Profile

Orcid

Educational Background 🎓

Dr. Omar Khatir has an impressive academic foundation in mechanical engineering 🎓⚙️ from Djilali Liabès University, Sidi Bel Abbes. Currently pursuing a Ph.D. (2022–2025), his research focuses on the mechanical behavior of biomaterials for middle ear prosthesis implants. 🦻 Prior to this, he earned a Master’s degree (2019–2021), specializing in design and simulation, with a thesis on developing a torsion test bench. 🛠️ He also holds a Bachelor’s degree (2016–2019), where he analyzed performance anomalies in Wankel engines. 🔧 His academic journey began with a Baccalaureate in Math-Technics (2016), emphasizing electrical engineering. 🔌📐

Professional Experience 💼

Dr. Omar Khatir has diverse professional experience in mechanical engineering 🛠️. As a University Lecturer (2023–2024) at Djilali Liabès University, he teaches undergraduate and postgraduate courses, supervises student research, and conducts biomechanical research 🏫🔬. Previously, as a Workshop Manager (2022–2023) at the Military Clothing and Sleeping Establishment, he managed production processes, maintained quality standards, and oversaw equipment maintenance ⚙️. Between 2019 and 2022, he worked as a Freelance Mechanical Engineer, providing engineering services in automotive mechanics 🚗 and agricultural equipment maintenance 🚜. He also gained industrial experience through an internship at CMA-Sidi Bel Abbes in 2019.

International Conferences 🌐

Dr. Omar Khatir has actively participated in international conferences 🌍, presenting his research on biomaterials and medical devices. He delivered a poster presentation at the International Conference on Technology, Engineering, and Science (IConTES) 2024 in Antalya, Turkey, evaluating Polyetheretherketone (PEEK) as an alternative to titanium in middle ear implants 🦻. At SNIBIA 2023 in Algeria, he gave an oral presentation on the behavior of middle ear prostheses using finite element modeling 🧠. He also presented on biocompatible materials with hydroxyapatite coating at SDACM 2024 in Algeria.

Research Focus Area 🌱🧬

Dr. Omar Khatir focuses on biomechanics and biomaterials, with particular emphasis on medical implants. His research addresses the mechanical behavior of materials used in middle ear prostheses and orthopedic implants 🦻💪. Dr. Khatir explores finite element modeling for optimizing prosthesis performance, applying advanced material degradation techniques and studying biocompatible materials like hydroxyapatite for implants 🦠. His work aims to improve patient outcomes by enhancing implant design, particularly with honeycomb structures and multi-cellular foam technology used in prosthetics and orthopedic devices. His research significantly impacts medical device optimization for better patient quality of life.

Publication Top Notes

Enhancing pressure ulcer prevention through optimized design of a multi-cellular foam mattress

Enhancing middle ear implants: Study of biocompatible materials with hydroxyapatite coating

Enhanced orthopedic implant design for transfemoral amputation incorporating a honeycomb structure technology

Multi-objective optimization of prosthetic multi-cells foam liner

Optimizing mechanical behavior of middle ear prosthesis using finite element method with material degradation FGM in three functions

Evaluation and Comparison of the Mechanical Behaviors of a Middle Ear Prosthesis using the Finite Element Method

Conclusion 🔍

Dr. Omar Khatir is highly suitable for consideration for a Best Researcher Award based on his academic background, research achievements, practical contributions, and impact on healthcare technology. His dedication to advancing medical device technology and improving patient outcomes makes him a strong contender.

Vinutha Moses | Biomaterials | Biomaterials Excellence

Vinutha Moses | Biomaterials | Biomaterials Excellence

Dr Vinutha Moses, RV College of Engineering, India

Dr. Vinutha Moses is a dedicated researcher and educator in biomaterials and chemical engineering, with extensive experience as an Assistant Professor at R.V. College of Engineering and Sapthagiri College of Engineering. Her work focuses on sustainable materials, innovative biomaterials, and eco-friendly solutions. Key publications include studies on bio-resins from organic waste, nanotechnology in water treatment, and high-strength cellulose resins for wood composites. Actively engaged in conferences and workshops, she continually enhances her expertise in AI, sustainable technologies, and biomaterial applications. Her strong academic background and commitment to sustainable innovation make her a valuable contributor to biomaterials research. 🌱🔬📚

Publication Profile

GoogleScholar

Orcid

Educational Background 🎓

Dr. Vinutha Moses holds an MSc(Res) and is pursuing a Ph.D. in Chemical Engineering from RV College of Engineering, Bangalore, Karnataka, India. Her advanced studies emphasize the development of sustainable and innovative materials, highlighting her expertise in chemical processes and biomaterials. Her academic background is grounded in rigorous research and applications that bridge chemical engineering with environmental sustainability. This educational foundation supports her ongoing contributions to the field, aligning with her broader interests in eco-friendly solutions and innovative research. Dr. Moses’ qualifications reflect her commitment to academic excellence and impactful research. 🎓🔬🌱

Current Role and Focus 💼

Dr. Vinutha Moses has extensive teaching experience in chemical engineering, having worked as an Assistant Professor at R.V. College of Engineering since 2016 and Sapthagiri College of Engineering from 2012 to 2016. She has also served as a Lecturer in various institutions, including R.V. College of Engineering (2007), Nijaiingappa Educational Centre (2002-2003), and Good Wills Polytechnical College (2001-2002). In addition to her academic roles, she has coordinated technical and non-technical events, showcasing her leadership and organizational skills. Dr. Moses’ diverse teaching career reflects her dedication to education and research in chemical engineering. 👩‍🏫🔬📚

Research Focus Area 🌱🧬

Dr. Vinutha Moses’ research primarily focuses on biomaterials, sustainable materials, and environmental applications of chemical engineering. Her work includes the development of bio-resins from organic waste for high-strength composites, wastewater treatment using nanotechnology and microbial fuel cells, and exploring eco-friendly solutions like bio-based polymers and biofuels. She has also researched advanced applications in oil recovery, including microbial enhancement and biosurfactants. With a strong background in nanotechnology, her work spans the intersections of sustainability, chemical engineering, and innovative biomaterials for environmental impact. 🌱🔬💡

Participation at National/International Conference 🎓🌍

Dr. Vinutha Moses has actively contributed to various international conferences, showcasing her expertise in sustainable engineering and technology. She presented on “Integrated Waste Management Systems” at the International Conference on Sustainable Environment and Engineering (ICSEE’19) in 2019. Additionally, her work on “Nanotechnology as Antibacterial and Heavy Metal Removal in Wastewater Treatment” was featured at the International Conference on Sustainable Engineering and Technology (iConset 2018). Her contributions also include the development of bio-resins from organic waste for high-strength composites and research on electroless gold plating bath. Dr. Moses’ research continues to impact both environmental and material sciences. 🌍🔬♻️

Publication Top Notes📄✨

Microbial hydraulic acid fracturing

Economical synthesis of oxygen to combat the COVID-19 pandemic

Hydroxymethyl furfural (HMF) a high strength cellulose resin for wood composite laminates

Development of a bio-resin from organic waste and its application to make high strength composites

Biological synthesis of copper nanoparticles and its impact

Phytochemical profile, antibacterial and antidiabetic effects of crude aqueous leaf extract of Datura stramonium

Production of biofuel from micro algae (Chlorella pyrenoidosa) using vertical reactor system and effect of nitrogen on growth and lipid content

Use of Keratin Present in Chicken Feather as a Hydrogen Storage Material: A Review

Wastewater Treatment Using Anaerobic Fluidized Bed Membrane Bioreactor Coupled with Microbial Fuel Cells for Circular Economy

Conclusion 🔍

Dr. Vinutha Moses’ combination of academic roles, publication record, conference participation, and continuous professional development makes her well-suited for contributing to Research for Biomaterials Excellence. Her deep understanding of chemical engineering principles, applied research in sustainable materials, and active engagement in educational and research initiatives position her as a strong candidate for leading and collaborating on innovative biomaterials projects.