Albandari Alrowaily | Material Science | Best Researcher Award

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Assist. Prof. Dr Albandari Alrowaily | Infectious diseases | Best Researcher Award

Assist Prof at  Princess Nourah bint Abdulrahmman University, Saudi Arabia

🎓 Assist. Prof. Dr Albandari Alrowaily is an Assistant Professor of Physics at Princess Nourah Bint Abdurrahman University, Saudi Arabia. She specializes in theoretical nuclear and atomic physics with a Ph.D. from the University of North Texas. Starting her career as a high school physics teacher, she progressed through roles such as lecturer, committee member, and advisor. Passionate about education quality, she now serves as the Teaching and Learning Quality Manager. Assist. Prof. Dr Albandari Alrowaily is an advocate for empowering women in science, holding memberships in ISMWS and APS. Her contributions to academia include teaching a wide range of physics courses, mentoring students, and participating in critical departmental activities. Outside work, she actively supports cultural and environmental initiatives.

Professional Profiles:

Google scholar

Education 🎓

Ph.D. in Theoretical Nuclear and Atomic Physics (2021): University of North Texas, Denton, TX, USA. Master’s in Theoretical Nuclear Physics (2008): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Bachelor’s in Physics (1999): Princess Nourah Bint Abdurrahman University, Riyadh, Saudi Arabia. Additional Certificates: Management, document organization, research ethics, teamwork, professional basics, and ESL.

Experience 👩‍🏫

High School Physics Teacher (1999–2000): Al-Jouf City. Teaching Assistant (2001–2007): Princess Nourah University. Committee Member: Grades Monitoring & Interviews (2001–2007). Lecturer (2008–2021): Princess Nourah University. Assistant Professor (2021–Present): Physics Department. Quality Manager (2022–Present): Teaching & Learning, College of Science. Additional Roles: Academic advisor, training supervisor, committee leader, and lab organizer.

Awards and Honors🏅

Ideal Student Awards (1992 & 1995): Al-Jouf Region. Distinguished Student (2000): Princess Nourah University. Travel Awards (2018–2019): DAMOP, UNT, and COS for research presentations. Recognized for exceptional contributions to academic excellence and community engagement.

Research Focus 🔬

Theoretical studies on nuclear and atomic physics, focusing on quantum mechanics, particle interactions, and advanced simulations. Proficient in computational methods using Matlab, Python, and Mathematica for modeling complex systems.  Research on nuclear reactions, atomic energy levels, and spectroscopic analysis. Advocates for interdisciplinary applications of physics to solve global challenges.

✍️Publications Top Note :

High-Performance Supercapacitors (ZnSe/MnSe)

Study: Development of ZnSe/MnSe composites for supercapacitor electrodes using hydrothermal techniques.

Publication: Journal of Physics and Chemistry of Solids, 2024, 49 citations.

Impact: Enhanced capacitive performance through novel material synthesis.

2. g-C3N4/NiIn2S4 for Supercapacitors

Study: Hydrothermal fabrication of g-C3N4/NiIn2S4 composite materials.

Publication: Ceramics International, 2024, 35 citations.

Impact: Promising electrode material with high efficiency.

3. Nonlinear Plasma Waves

Study: Interaction of solitons in pair-ion–electron plasmas using the Hirota method.

Publication: Physics of Fluids, 2023, 30 citations.

Impact: Advances theoretical understanding of electrostatic plasma dynamics.

4. SrCeO3/rGO for Oxygen Evolution Reaction

Study: Hydrothermal synthesis of SrCeO3 nanocomposites for electrocatalysis.

Publication: Fuel, 2024, 27 citations.

Impact: Enhanced catalytic efficiency for clean energy applications.

5. BiFeO3 Supercapacitor Applications

Study: Mn-doped BiFeO3 as an electrode material for supercapacitors.

Publication: Journal of Energy Storage, 2024, 20 citations.

Impact: Novel application of perovskite materials for energy storage.

6. Radiation Shielding Polymers

Study: Optical and mechanical improvements in polyvinyl alcohol composites.

Publication: Journal of Rare Earths, 2023, 18 citations.

Impact: Optimized materials for gamma-ray attenuation.

7. NiS2@SnS2 Nanohybrids

Study: Water-splitting applications of NiS2@SnS2 nanohybrids.

Publication: Materials Chemistry and Physics, 2024, 15 citations.

Impact: Low-cost, efficient electrocatalysts for sustainable energy.

8. Ce-doped SnFe2O4 Supercapacitors

Study: Hydrothermal synthesis enhancing electrochemical performance.

Publication: Electrochimica Acta, 2024, 13 citations.

Impact: Improved energy storage capabilities of supercapacitors.

Conclusion

The candidate has a robust academic background, extensive teaching experience, and proven leadership capabilities, making them a strong contender for the Research for Best Researcher Award. Strengthening the portfolio with focused research publications and demonstrating broader impacts of their work will further enhance their prospects for this prestigious recognition.

Julia Puseletso Mofokeng | nanocomposites | Women Researcher Award

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Dr. Julia Puseletso Mofokeng | nanocomposites | Women Researcher Award

Senior Lecturer / Researcher at University of the Free State, South Africa

Dr. Julia Puseletso Mofokeng is a Senior Lecturer and Researcher in the Department of Chemistry at the University of the Free State (UFS), QwaQwa Campus, South Africa. She holds a Ph.D. in Polymer Science (2015) from UFS, where she also obtained her M.Sc. and B.Sc. degrees. Her research focuses on polymer-titania nanocomposites and sustainable polymers. As an NRF Y2-rated Emerging Researcher (2021-2025), Dr. Mofokeng is recognized for her contributions to polymer science, receiving the Best Emerging Researcher award in Natural and Agricultural Sciences (QwaQwa Campus) in 2016.

Publication Profile

orcid

scopus

Academic and Research Contributions

Dr. Mofokeng teaches Honours-level modules in Physical Polymer Science and Polymer Testing and Characterization at UFS. She supervises Honours, Master’s, and Ph.D. students, actively publishing research in polymer science. In her roles, she oversees the research laboratory, sources research funding, and contributes to curriculum development.

Professional Experience

Since 2019, Dr. Mofokeng has been a Senior Lecturer, previously serving as a Lecturer (2017–2018), Officer in Professional Services (2011–2017), and Research Assistant (1999–2011). Her extensive experience in research operations has involved hands-on roles in laboratory management, equipment maintenance, student training, and conducting complex polymer analyses.

Skills and Expertise

Dr. Mofokeng is proficient in a variety of scientific instruments, including DSC, TGA, FTIR, DMA, and rheometers, essential for polymer characterization and analysis. She has experience with SEM, TEM, and STEM techniques and is skilled in synthesizing polymers, composites, and nanocomposites.

Publication  Top Notes

 

Preparation of PLA/PHBV/GO Composites for Lead Ion Removal

Publication: Polymer Composites, 2024

Focus: Develops PLA/PHBV/GO composites specifically for selectively removing Pb(II) ions from water.

Synthesis of Graphene Oxide for Lead Ion Removal

Publication: Carbon Trends, 2024

Focus: Details the synthesis and properties of GO aimed at lead ion adsorption in water.

Morphology and Thermal Properties of PLA/PHBV/GO Composites

Publication: Polymer Engineering and Science, 2024

Focus: Analyzes structural and thermal aspects of PLA/PHBV/GO composites.

Properties of Polybutylene Succinate-Pineapple Leaf Fiber Composites

Publication: Heliyon, 2023

Focus: Discusses chemical and thermal properties of eco-friendly PBS composites using waste fibers.

Review on Graphene-Based Biodegradable Polymer Composites

Publication: Materials, 2023

Focus: Reviews the use of graphene in polymer composites for heavy metal adsorption in water.

Polysiloxane in Guar Gum-Polyaniline Matrix

Publication: International Journal of Biological Macromolecules, 2018

Focus: Studies the effect of polysiloxane on the thermal and optical properties of a modified guar gum matrix.

LDPE with Carbon Black, Zinc, and Paraffin Wax

Publication: Journal of Polymer Research, 2017

Focus: Investigates the thermo-switch properties of LDPE composites with various additives.

Thermal Stability of PCL/PLA Composites with Layered Silicates

Publication: Polymer Testing, 2016

Focus: Explores thermal stability enhancements in PCL/PLA composites.

PLA/PHBV Nanocomposites with TiO₂ as Filler

Publication: Journal of Applied Polymer Science, 2015

Focus: Analyzes the thermal degradation and morphology of PLA/PHBV blends with TiO₂ fillers.

Dynamic Mechanical Properties of Various Biodegradable Polymer Blends

Publication: Thermochimica Acta, 2015

Focus: Examines mechanical properties of PLA/PHBV, PLA/PCL, and PHBV/PCL blends with TiO₂ nanofillers.

 

Conclusion

Dr. Mofokeng’s achievements and dedication make her a strong candidate for the Research for Women Researcher Award. Her contributions to polymer science, leadership in academia, and consistent service to the University of the Free State highlight her commitment to her field and inspire future women researchers. With continued efforts to expand her international research footprint, she stands poised to make an even greater impact in polymer science.

A F M Motiur Rahman | Bio-chemicals | Best Researcher Award

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Assoc. Prof. Dr A F M Motiur Rahman | liquidos ionicos | Best Researcher Award

Associate Professor at Pharmaceutical Chemistry, Saudi Arabia

A dedicated pharmaceutical scientist, Assoc. Prof. Dr A F M Motiur Rahman holds a Ph.D. from Yeungnam University, South Korea, with a strong foundation in medicinal chemistry, particularly in synthetic molecule design and drug metabolism. Serving as an Associate Professor at King Saud University, Saudi Arabia, he leads research in synthetic molecule development for anticancer applications, mentoring students across various academic levels. His work encompasses innovative synthesis and bio-conjugate chemistry, advancing cancer drug discovery through ongoing projects and published articles.

Publication Profile

scopus

orcid

Education 🏅

Ph.D. in Pharmaceutical Science, Yeungnam University, South Korea, 2007M.Sc. in Organic Chemistry, University of Rajshahi, Bangladesh, 2002B.Sc. in Chemistry (Honors), University of Rajshahi, Bangladesh, 2000H.S.C. in Science, Rajshahi Education Board, Bangladesh, 1995S.S.C. in Science, Rajshahi Education Board, Bangladesh, 1993

Experience 👩‍🏫

Currently an Associate Professor at King Saud University,Assoc. Prof. Dr A F M Motiur Rahman has also served as Assistant Professor, Postdoctoral Research Associate at Kyungpook National University, and Research Professor at Yeungnam University. He’s contributed to Frontiers in Chemistry and the Malaysian Journal of Medical and Biological Research, specializing in heterocyclic chemistry, chromatographic analysis, and organic molecule synthesis.

Awards and Honors 🏆

Recipient of esteemed scholarships including NEDO Fellowship (Japan), BK21 Scholarship (South Korea), and multiple Korea Research Foundation Fellowships, Assoc. Prof. Dr A F M Motiur Rahman  has received numerous recognitions, such as the Yeungnam University Ph.D. Scholarship, reflecting his impactful contributions to pharmaceutical chemistry and organic molecule synthesis.

Research Focus 🔬

Specializing in anticancer agents, Assoc. Prof. Dr A F M Motiur Rahman  leads research in synthesizing bioactive molecules, focusing on enzyme inhibitory activities, topoisomerase inhibition, and bio-conjugate chemistry. His projects emphasize metabolic profiling of synthesized molecules, advancing anticancer drug discovery through the design of synthetic and natural compounds for targeted therapies.

Publication  Top Notes

DNA-binding and Anticancer Research

Title: Exploring the DNA-binding and anticancer potential of polypyridyl ruthenium(II) complexes

Journal: Journal of Molecular Structure, 2025, 1321, Article 140044

Authors: Zhang, D., Li, M., Rahman, A.F.M.M., Liu, Z., Lu, Y.

Citations: 0

Multitarget Anticancer Agents

Title: Synthesis and Evaluation of Thiazolyl-indole-2-carboxamide Derivatives as Potent Multitarget Anticancer Agents

Journal: ACS Omega, 2024, 9(40), Pages 41944–41967

Authors: Saadan, N.M., Ahmed, W.U., Kadi, A.A., Al-Wabli, R.I., Rahman, A.F.M.M.

Citations: 0

Dual Inhibition in Cancer Therapy

Title: Design, synthesis, and mechanistic evaluation of novel benzimidazole-hydrazone compounds as dual inhibitors of EGFR and HER2

Journal: Journal of Molecular Structure, 2024, 1309, Article 138177

Authors: Mirgany, T.O., Rahman, A.F.M.M., Alanazi, M.M.

Citations: 1

Antibacterial Compound Discovery

Title: New antibacterial penicimenolide G with unusual 12-membered resorcylic acid lactone ring isolated from Aspergillus giganteus

Journal: Phytochemistry Letters, 2024, 62, Pages 18–23

Authors: Shamim, A.H.M., Mondol, M.A.M., Hossain, M., Alharbi, H.A., Rahman, A.F.M.M.

Citations: 0

Multi-Kinase Inhibitors Development

Title: Discovery of 1H-benzo[d]imidazole-(halogenated)benzylidenebenzohydrazide Hybrids as Potential Multi-Kinase Inhibitors

Journal: Pharmaceuticals, 2024, 17(7), Article 839

Authors: Mirgany, T.O., Asiri, H.H., Rahman, A.F.M.M., Alanazi, M.M.

Citations: 0

Anticancer Photophysical Studies

Title: Synthesis, Cytotoxicity, and Photophysical Investigations of 2-Amino-4,6-diphenylnicotinonitriles

Journal: Molecules, 2024, 29(8), Article 1808

Authors: Al-Ghamdi, A.R., Rahman, S., Al-Wabli, R.I., Al-Mutairi, M.S., Rahman, A.F.M.M.

Citations: 0

Solar Cell Efficiency

Title: The photon-electrical conversion efficiency of dye-sensitive solar cells fabricated using silver-nanoparticle/titania photocathode

Journal: Applied Research, 2024, 3(1), Article e202300044

Authors: Daniel, L.S., Kaffer, R.T., Kalipi, L.M., Kalengay, M., Uahengo, V.

Citations: 0

Nano Drug Delivery System for Brain

Title: Phospholipid-based nano drug delivery system of curcumin using MSP1D1 protein and poloxamer 407

Journal: Journal of Nanoparticle Research, 2024, 26(1), Article 12

Authors: Shariare, M.H., Mannan, M., Khan, F., Uddin, M.N., Kazi, M.

Citations: 2

Pyrrolo[2,3-d]pyrimidine Kinase Inhibitors

Title: Discovery of New Pyrrolo[2,3-d]pyrimidine Derivatives as Potential Multi-Targeted Kinase Inhibitors and Apoptosis Inducers

Journal: Pharmaceuticals, 2023, 16(9), Article 1324

Authors: Alotaibi, A.A., Alanazi, M.M., Rahman, A.F.M.M.

Citations: 4

Selective Kinase Inhibition

Title: Novel pyrrolo[2,3-d]pyrimidine derivatives as multi-kinase inhibitors with VEGFR-2 selectivity

Journal: Journal of Saudi Chemical Society, 2023, 27(5), Article 101712

Authors: Alotaibi, A.A., Asiri, H.H., Rahman, A.F.M.M., Alanazi, M.M.

Citations: 10

Conclusion

Given the candidate’s robust academic qualifications, international research experience, successful mentorship, and strong track record in pharmaceutical and organic chemistry research, they are exceptionally suited for the Best Researcher Award. Their commitment to teaching, funding acquisition, and contributions to therapeutic compound development mark them as a distinguished researcher who has made impactful contributions to the field. Further engagement in publishing and interdisciplinary initiatives could enhance their already strong candidacy, positioning them as a future leader in pharmaceutical chemistry and organic synthesis.

Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

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Assoc Prof Dr. Yuecun wang | nanomechanics of semiconductor | Best Researcher Award

Associate Professor at Xi’an Jiaotong University, China

Yue Wang is an accomplished Assistant Professor at Xi’an Jiaotong University’s School of Material Science and Engineering. With a deep focus on nanomechanics and electrochemical reactions, his research has contributed significantly to materials science, particularly in magnesium alloys and battery technologies. Wang completed his Ph.D. in 2018, building on extensive hands-on experience with TEM and other nanotechnology techniques. He is a recipient of numerous prestigious awards and has several high-impact publications in journals like Nature Communications and Science. His work pushes the boundaries of materials science, enabling innovations in corrosion resistance and energy storage. 🧪📚🔬

 

Publication Profile

scholar

Education🎓📖🌍

Yue Wang holds a Ph.D. in Materials Science and Engineering from Xi’an Jiaotong University, where he started his studies in 2013. He completed a Bachelor’s in the same field from Northwestern Polytechnical University in 2013. He was also a visiting student at Lawrence Berkeley National Lab, University of California, Berkeley, from February 2017 to February 2018. During this period, he gained valuable exposure to cutting-edge research environments, broadening his knowledge of nanomaterials and real-time electrochemical reactions. His academic journey showcases a strong foundation in both theoretical and applied materials science.

Experience🏫🧑‍🏫🛠️

Yue Wang has been with Xi’an Jiaotong University’s School of Material Science and Engineering since 2018, where he now serves as a tenured Assistant Professor. Prior to his tenure, he worked extensively in in-situ environmental TEM and nanomechanical testing, producing significant contributions to battery technologies and corrosion resistance. His research focuses on Si-based materials, Mg alloys, and novel microscopy techniques. He also served as a Teaching Assistant at the university, where he taught the course on mechanical properties of materials. His career reflects a strong emphasis on research and education in materials science.

Awards and Honors🏆

Yue Wang has received several prestigious awards throughout his career. He was recognized for his high-impact contributions in materials science, including publishing in leading journals such as Science and Nature Communications. His innovative research in the field of nanomechanics and corrosion resistance has earned him multiple research grants and distinctions within academic circles. He has also been an invited speaker at several international conferences, where his work on Si-based materials and Mg alloys has been widely lauded. His dedication to pushing the boundaries of materials research continues to earn him accolades. 🥇🎖️

Research Focus 🔬🧲📐

Yue Wang’s research is primarily centered on the mechanical properties and nanostructures of Si-based materials and metals. His work utilizes in-situ quantitative nanomechanics to probe these materials at the micro and nano levels. Wang’s expertise extends to environmental TEM studies, particularly in observing real-time electrochemical reactions in lithium/sodium ion batteries and developing anti-corrosion techniques for magnesium alloys. He also specializes in advanced microscopy, nanomechanical testing, and fabrication using Focused Ion Beam (FIB) technology, contributing to improved corrosion resistance and battery efficiency.

Publication  Top Notes

  • Exceptional plasticity in the bulk single-crystalline van der Waals semiconductor InSe
    Science, 2020, 369 (6503), 542-545
    Citations: 220
    This work explores the mechanical properties of InSe, a van der Waals semiconductor, highlighting its exceptional plasticity, a critical factor for flexible electronics.
  • Turning a native or corroded Mg alloy surface into an anti-corrosion coating in excited CO2
    Nature Communications, 2018, 9 (1), 4058
    Citations: 98
    The paper introduces a method to enhance the corrosion resistance of Mg alloys through a CO2-based treatment.
  • In situ TEM study of deformation-induced crystalline-to-amorphous transition in silicon
    NPG Asia Materials, 2016, 8 (7), e291-e291
    Citations: 81
    A detailed study using transmission electron microscopy (TEM) to observe how crystalline silicon transitions to an amorphous state under mechanical stress.
  • Chestnut-like SnO2/C nanocomposites with enhanced lithium-ion storage properties
    Nano Energy, 2016, 30, 885-891
    Citations: 66
    This research investigates nanocomposites for improving lithium-ion battery performance.
  • Tension–compression asymmetry in amorphous silicon
    Nature Materials, 2021, 20 (10), 1371-1377
    Citations: 52
    The work explores the mechanical behavior of amorphous silicon, especially the asymmetry between tension and compression.
  • High-throughput screening of 2D van der Waals crystals with plastic deformability
    Nature Communications, 2022, 13 (1), 7491
    Citations: 45
    This paper focuses on the search for two-dimensional van der Waals materials with superior plasticity for next-generation flexible electronics.
  • Thermal treatment-induced ductile-to-brittle transition of submicron-sized Si pillars fabricated by focused ion beam
    Applied Physics Letters, 2015, 106 (8)
    Citations: 36
    The study analyzes the impact of thermal treatment on the mechanical properties of silicon structures at the submicron scale.
  • Ceramic nanowelding
    Nature Communications, 2018, 9 (1), 96
    Citations: 34
    This paper discusses the novel concept of ceramic nanowelding, which could have implications for nanomanufacturing and electronics.
  • In situ transmission electron microscopy study of the electrochemical sodiation process for a single CuO nanowire electrode
    RSC Advances, 2016, 6 (14), 11441-11445
    Citations: 26
    In this work, the authors investigate the sodiation process in copper oxide nanowires, which is relevant for battery technology.
  • In situ TEM observing structural transitions of MoS2 upon sodium insertion and extraction
    RSC Advances, 2016, 6 (98), 96035-96038
    Citations: 21
    This research reveals how MoS2 structures change during sodium ion insertion, providing insights for energy storage applications.

Conclusion

The candidate’s expertise in nanomechanics, in-situ TEM, and nanomaterial testing positions them as a leader in their field, making them a worthy candidate for the Best Researcher Award. Their ability to innovate and apply cutting-edge techniques in materials science, combined with their teaching prowess, sets them apart. Expanding their international collaborations and research impact would further elevate their profile for such prestigious recognition.

Hasi Rani Barai | Nanocomposite materials | Best Researcher Award

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Assist Prof Dr. Hasi Rani Barai | Nanocomposite materials | Best Researcher Award

Assistant Professor at Yeungnam University, South Korea

Dr. Hasi Rani Barai is an accomplished Assistant Professor at Yeungnam University, Republic of Korea, specializing in materials science and nanotechnology. She completed her postdoctoral research in artificial photosynthesis at Sogang University and nanomaterials at Ewha Womans University. Dr. Barai has earned global recognition for her innovative work in energy storage devices and nanocomposite materials. She holds a Ph.D. from Inha University and has published extensively in high-impact journals. Her career is marked by a deep commitment to advancing materials engineering and green energy solutions.

Publication Profile

orcid

Education 🎓

Ph.D. (2010–2013): Inha University, South Korea, under Prof. H.W. Lee – Research in physical organic mechanisms, nanomaterials, and high-energy materials. M.S. (2006–2008): University of Dhaka, Bangladesh, under Prof. M. Muhibur Rahman – Specialized in laser spectroscopy and physical chemistry. B.Sc. (2000–2006): University of Dhaka, Bangladesh, under Prof. M. Muhibur Rahman – Studied chemistry with a focus on nanomaterials and spectroscopy.

Experience 🔬 

Assistant Professor (2015–present): Yeungnam University, South Korea – Leading research in nanocomposites, energy storage, and biosensors Postdoctoral Fellow (2013–2015): Sogang University, South Korea – Focused on artificial photosynthesis and nanocatalysts for CO2 reduction. Postdoctoral Fellow (2013): Ewha Womans University, South Korea – Researched nanoparticles for energy storage. Research Fellow: Expert in supercapacitors, electrochemistry, and MOFs.

Awards and Honors 🏅

KCAP Fellowship: Awarded for outstanding research in artificial photosynthesis and nanomaterials at Sogang University. Best Paper Award: Recognition for top-tier research publications in energy storage systems. International Research Grants: Secured multiple research grants to advance the field of nanotechnology and green energy. Young Scientist Award: Honored for innovative contributions in the field of materials science and energy devices.

Research Focus 🔍 

Materials Science & Engineering: Specializes in nanocomposites, supercapacitors, and biosensors. Electrochemistry & Energy Storage: Focus on supercapacitors, nanoparticles, and energy storage devices for sustainable technologies. Nanotechnology & Catalysis: Research in nanocatalysts, MOFs, and CO2 reduction for artificial photosynthesis. Green Energy: Leading innovations in renewable energy solutions using nanomaterials and advanced electrochemistry.

Publication  Top Notes

High-Performance Battery-Type Supercapacitors: Investigated the growth of nanorods/nanospheres on conductive frameworks for energy storage. ACS Applied Materials & Interfaces, July 2024. DOI: 10.1021/acsami.4c03109

Detection of Polymorphisms in FASN, DGAT1, and PPARGC1A Genes: Analyzed gene associations with milk yield and composition traits in river buffalo. Animals, June 2024. DOI: 10.3390/ani14131945

Conductive Gels for Energy Storage and Conversion: Studied design strategies for materials used in energy applications. Materials, May 2024. DOI: 10.3390/ma17102268

Antibiotic Resistance in Plant Pathogenic Bacteria: Discussed environmental impacts and biocontrol agents. Plants, April 2024. DOI: 10.3390/plants13081135

pH-Sensitive Hydrogel Membrane for Dye Water Purification: Developed sodium alginate/poly(vinyl alcohol) hydrogel for environmental applications. ACS ES&T Water, February 2024. DOI: 10.1021/acsestwater.3c00567

 

Conclusion

Dr. Hasi Rani Barai is highly suitable for the Best Researcher Award due to her remarkable achievements in the fields of nanocomposite materials, energy storage, and artificial photosynthesis. Her extensive academic and research career reflects excellence in innovative materials science, positioning her as a leading researcher in cutting-edge technologies that address global challenges. By fostering international collaborations and emphasizing applied research, Dr. Barai’s already stellar portfolio could reach even greater heights, making her a deserving candidate for this award.

Raymond Turner | nano-materials | Best Researcher Award

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Prof. Raymond Turner | nano-materials | Best Researcher Award

Faculty Professor , University of Calgary, Canada

Raymond J. Turner is a Professor of Biochemistry & Microbiology at the University of Calgary with a focus on microbial interactions with metals, biofilms, and biogenic nanomaterials. He holds adjunct professorships in Pharmacy and Biotechnology at the University of Bologna and the University of Verona. Turner has contributed extensively to biochemistry, microbiology, and biotechnology, publishing over 237 papers and securing numerous patents. He has served in key advisory roles, including the restructuring of the University of Calgary’s research offices. His research bridges scientific discovery and industrial applications, particularly in addressing antimicrobial resistance through metal-based nanotechnologies. Turner’s career spans several continents, fostering collaborations in over 45 research and academic partnerships. His diverse expertise in bio-nanotechnology, metallo-antimicrobials, and biofilms makes him a leading figure in the field.

Publication Profile

Google Scholar

Education  🎓

Turner obtained his BSc in Biochemistry (1981-1985), with a minor in chemistry. He pursued his Ph.D. in Biophysical Chemistry (1985-1990), specializing in nanosecond time-resolved fluorescence. His post-doctoral research at the University of Alberta (1990-1994) focused on Medical Microbiology and energetics. He later advanced to Assistant Professor at the University of Calgary in 1998, where he became an Associate Professor with tenure in 2002. Turner has since held various academic positions, including Professor a contratto at the University of Verona in Italy (2017). His academic journey reflects a strong focus on interdisciplinary sciences, ranging from biochemistry to microbiology. Turner’s educational background underpins his innovations in biotechnology, microbiological research, and biophysical chemistry, blending theory and practical applications in both environmental and medical sciences.

Experience  🏆

Raymond Turner’s career trajectory includes key academic and research roles. From 1998 to 2001, he served as Assistant Professor of Biochemistry at the University of Calgary, progressing to Associate Professor with tenure (2002-2007) and later full Professor (2007-2019). He contributed advisory services to the Vice-President of Research and Finance (2010-2012) during the university’s restructuring phase. In 2017, he became Professor a contratto at the University of Verona, Italy. Turner’s research contributions span across environmental microbiology, antimicrobial resistance, and bio-nanotechnology. His research has led to more than 45 academic collaborations, 237 published papers, and several patented innovations. Since 2019, he has also been an Adjunct Professor at the University of Bologna, Italy, strengthening his international collaborations and research influence.

Awards and Honors 

Turner has received numerous awards for his innovative research in biochemistry, microbiology, and nanotechnology. Among his accolades are industry and academic honors for his pioneering work on metallo-antimicrobials and biofilms. His advisory contributions to the restructuring of the University of Calgary’s research offices earned him commendations for excellence in leadership. Turner’s prolific output of over 237 publications has been recognized by the scientific community, with several awards for his contributions to microbiology and nanotechnology. He has secured over 12 patents, reflecting his ability to translate research discoveries into practical applications. Turner has also been invited to serve in editorial appointments for over 15 scientific journals, further underlining his influence in the field.

Research Focus🔬

Turner’s research is primarily focused on microbial interactions with metals, exploring metallo-antimicrobials to combat antibiotic resistance. His team investigates metal formulations ranging from simple salts to complex nanomaterials, targeting environmental and medical microbes. Turner’s extensive work in the biotechnology of biogenic nanomaterials has led to breakthroughs in eco-friendly synthesis using bacteria and fungi. His current research explores heteroatom nanomaterials involving selenium, tellurium, cadmium, and copper, synthesized by a unique Rhodococcus strain. Another area of focus is microbial biofilms, specifically their resistance to antimicrobials and novel biocides to control biofouling and corrosion on various surfaces. Turner’s contributions to bio-nanotechnology, biofilms, and antimicrobial research position him at the forefront of the field, addressing global challenges related to infection control and bioremediation.

Publication Top Notes

ntimicrobial Activity of Metals: Mechanisms, Molecular Targets, and Applications (2013)
This review explores how metals like silver, copper, and zinc exert antimicrobial effects, targeting microbial membranes, proteins, and DNA. It highlights the potential for metals to combat biofilms and resistant bacteria.

Multimetal Resistance and Tolerance in Microbial Biofilms (2007)
The authors discuss biofilm-forming bacteria’s ability to resist multiple metals, which is a growing problem in medical and industrial contexts. Biofilm structure and metal detoxification mechanisms are key to their survival.

A Novel and Ubiquitous System for Membrane Targeting and Secretion of Cofactor-Containing Proteins (1998)
This paper describes a system for secreting proteins across bacterial membranes, focusing on the role of membrane-targeting mechanisms.

The SMR Family: A Novel Family of Multidrug Efflux Proteins (1996)
This research uncovers a family of proteins that bacteria use to pump out lipophilic drugs, contributing to multidrug resistance.

Microtiter Susceptibility Testing of Microbes Growing on Peg Lids (2010)
This protocol outlines a high-throughput screening method for testing microbial susceptibility, especially for biofilm-growing bacteria.

Conclusion:

Dr. Raymond J. Turner’s extensive research contributions, particularly in metal-microbe interactions, nanotechnology, and biocides, showcase his significant impact and innovative approach. His broad expertise, coupled with a strong publication record and involvement in high-impact projects, makes him a strong contender for the Best Researcher Award. Highlighting the commercial success and practical implications of his research would further support his application, demonstrating not only academic excellence but also tangible advancements in his fields of expertise.

Jen-Taut Yeh | communication substrate materials | Best Researcher Award

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Prof.  MatSE Department/Hubei University, china

Prof. Jen-taut Yeh has established himself as a leading figure in the field of materials science and engineering, particularly in the areas of functional polymers, nanocomposite materials, and high-performance textiles. His academic journey, spanning several decades, has been marked by significant contributions to research, innovation, and education, positioning him as an influential scientist and educator in the global materials science community. Currently serving as a chair professor in the Department of Materials Science and Engineering (MatSE) at Hubei University in Wuhan, China, Prof. Yeh continues to lead cutting-edge research and mentor the next generation of scientists.

Professional Profiles:

Scopus

🌟 Prof. Jen-taut Yeh: A Distinguished Career in Materials Science

🎓 Academic Background

Prof. Jen-taut Yeh embarked on his illustrious academic journey with a Bachelor of Science (B.S.) in Chemical Engineering from National Taiwan University in 1981. His passion for polymers led him to pursue a Ph.D. in the polymer science program at the Department of Materials Science and Engineering (MatSE) at Penn State University, where he earned his degree in 1989. This solid foundation laid the groundwork for his future groundbreaking research in materials science.

🧪 Early Research Experience

After completing his Ph.D., Prof. Yeh spent six months as a Research Scientist at the MatSE Department of the University of Pennsylvania, working closely with Professor N. Brown. This period allowed him to further hone his research skills and gain valuable experience in the field of materials science, setting the stage for his future academic contributions.

👨‍🏫 Academic Career at NTUST

In 1990, Prof. Yeh returned to Taiwan and joined the faculty of the National Taiwan University of Science and Technology (NTUST) as an associate professor. His dedication to research and teaching earned him a promotion to full professor in the Department of Materials Science and Engineering in 1995. During his tenure at NTUST, Prof. Yeh made significant strides in the development of functional polymers and nanocomposite materials, contributing over 200 peer-reviewed publications to the scientific community.

🌍 Global Impact and Patents

Prof. Yeh’s research has had a profound impact on both academia and industry. As an inventor and co-inventor, he holds more than 35 patents, particularly in the areas of functional polymers, nanocomposite materials, and high-performance textiles. His innovations have led to advancements in various industries, including textiles, electronics, and biotechnology, making him a prominent figure in the field of materials science.

🏫 Leadership at Kun San and Hubei University

After retiring from NTUST in 2013, Prof. Yeh continued to contribute to academia as a chair professor in the MatSE Department at Kun San (Tainan, Taiwan) and later at Hubei University (Wuhan, China). In these roles, he has continued to lead research initiatives and mentor young scientists, ensuring the continued advancement of materials science.

📚 Legacy and Contributions

Prof. Yeh’s career is marked by a dedication to advancing knowledge in materials science. His contributions to functional polymers, nanocomposite materials, and high-performance textiles have left a lasting legacy in both research and practical applications. His work exemplifies the integration of scientific research with real-world innovation, making him a highly respected and influential figure in the global materials science community.

Strengths for the Award

  1. Extensive Research Contributions: Professor Yeh has authored over 200 peer-reviewed publications, showcasing a prolific and impactful research career in materials science and polymer engineering. His extensive body of work indicates a deep commitment to advancing knowledge in his field.
  2. Innovative Patents: With more than 35 patents related to functional polymers, nano-composite materials, and high-performance textiles, Professor Yeh has demonstrated significant innovation. These patents highlight his role in developing cutting-edge technologies that have practical applications in various industries.
  3. Diverse Expertise: His research spans functional polymers, nano-composites, and textiles, reflecting a broad and versatile expertise. This diverse focus is valuable for addressing complex problems in material science and engineering.
  4. International Experience: Having held prestigious positions at institutions in Taiwan and China, and experience as a Research Scientist at the University of Pennsylvania, Professor Yeh brings a global perspective and a wealth of international experience to his research.
  5. Long-Term Academic Influence: His academic career, including roles as an associate professor, professor, and chair professor, illustrates long-term influence and leadership in the field of materials science and engineering.

Areas for Improvement

  1. Recent Research Trends: While Professor Yeh has a strong historical track record, continuous adaptation to the latest research trends and emerging technologies is crucial. Keeping abreast of the latest developments in materials science and integrating them into his work could further enhance his contributions.
  2. Collaborative Research: Expanding collaborative efforts with researchers in emerging fields or interdisciplinary areas could lead to new innovations and applications. Collaborations with industry partners or researchers from other scientific disciplines might yield groundbreaking results.
  3. Research Impact Metrics: While the number of publications and patents is impressive, focusing on increasing the impact and citation of his work could strengthen his profile. Engaging more actively in high-impact journals or conferences might enhance his research visibility.

 

✍️Publications Top Note :

Poly(ether ketone ketone)/Silica Nanotubes Substrate Films:

Publication: Journal of Polymer Research, 2024, 31(2), 33.

Summary: This work explores the use of PEKK combined with silica nanotubes to create advanced substrate films suitable for 6G communication systems. The research highlights the material’s potential to enhance performance in high-frequency applications.

Poly(ether ketone ketone)/Hollow Silica Filler Substrates:

Publication: Polymer International, 2024.

Summary: Similar to the previous research, this study investigates PEKK substrates but with hollow silica fillers, focusing on improving material properties for 6G applications.

Fifth Generation (5G) Communication Materials

Poly(ether ketone ketone)/Modified Montmorillonite Substrate:

Publication: Macromolecular Research, 2022, 30(2), pp. 107–115.

Summary: This study focuses on substrates made from PEKK and modified montmorillonite for use in 5G communication technologies, examining how these materials can improve signal performance.

SiO2 Filled Functional Polypropylene Substrates:

Publication: Journal of Macromolecular Science, Part B: Physics, 2022, 61(6), pp. 696–718.

Summary: This research evaluates the performance of polypropylene substrates filled with SiO2 for 5G communication, focusing on functional properties that enhance communication efficiency.

Sustainable and Renewable Materials

ScCO2-Processed Thermoplastic Starch/Chitosan Oligosaccharide Blown Films:

Publication: Journal of Polymer Engineering, 2024.

Summary: This study investigates the use of supercritical CO2 (ScCO2) to process thermoplastic starch and chitosan oligosaccharides, producing blown films with oxygen barrier and antibacterial properties.

Fully Renewable Oxygen Barrier Films from ScCO2-Processed Thermoplastic Starch/Sugar Alcohol Blends:

Publication: Journal of Polymer Engineering, 2024.

Summary: The focus here is on creating oxygen barrier films from renewable resources, particularly thermoplastic starch and sugar alcohol blends, processed with ScCO2.

Renewable Thermoplastic Starch/Sugar Alcohol Blends:

Publication: Polymer Engineering and Science, 2024, 64(1), pp. 231–242.

Summary: This work continues the exploration of renewable thermoplastic starch blended with sugar alcohols, aiming to develop materials with practical applications in oxygen barrier technology.

Material Processing and Performance Enhancement

Effect of Supercritical CO2 and Alkali Treatment on Oxygen Barrier Properties:

Publication: Journal of Polymer Engineering, 2023, 43(10), pp. 833–844.

Summary: This article explores the impact of supercritical CO2 processing and alkali treatment on the oxygen barrier properties of thermoplastic starch/PVA films.

Micro Foaming of Glutaraldehyde/Hexametaphosphate/Thermoplastic Starch Foams:

Publication: Cellular Polymers, 2022, 41(3), pp. 119–143.

Summary: This research deals with the micro-foaming performance of thermoplastic starch foams modified with alkali treatment and montmorillonite nano-platelets, processed with ScCO2.

Advanced Fiber Materials

Multistage Drawing of ScCO2-Assisted UHMWPE/Activated Nanocarbon Fibers:

Publication: Journal of Polymer Research, 2022, 29(3), 78.

Conclusion

Professor Jen-Taut Yeh is a distinguished researcher with a substantial and impactful career in materials science. His extensive publication record, innovative patents, and diverse research interests are notable strengths. To further enhance his candidacy for the Best Researcher Award, focusing on current research trends, expanding collaborative efforts, and improving research impact metrics could be beneficial. His proven track record and ongoing contributions make him a strong contender for recognition in the field of materials science and engineering.

JIBIN K P | Polymer nanocomposites | Best Scholar Award

Published on by Mechanics Awards
Dr.  Mahatma Gandhi University, India

Dr. Jibin Keloth Paduvilan is a highly accomplished researcher in the field of polymer nanocomposites and nanomaterials, with significant contributions to the study of rubber nanocomposites, graphene oxide, and environmentally friendly materials. He holds a Ph.D. in Chemistry from Mahatma Gandhi University, Kottayam, Kerala, where he also serves as a Senior Researcher. With over seven years of R&D experience, including a patent for green tire applications and multiple publications in esteemed journals, Dr. Jibin’s work is at the forefront of advanced material science. Additionally, he is an Editorial Assistant for NANOSO Journal, Elsevier.

Professional Profiles:

Google scholar

Education 🎓 

Doctor of Philosophy (Chemistry)
🎓 2019-2024🏫 School of Chemical Sciences, Mahatma Gandhi University, Kottayam, KeralaDr. Jibin pursued his Ph.D. in Chemistry, focusing on cutting-edge research in nanostructured materials and their applications. Master of Science in Chemistry 🎓 2013-2015🏫 Mahatma Gandhi University, Kottayam, Kerala With a first rank and an impressive 87% score, Dr. Jibin completed his M.Sc. in Chemistry, where he developed a deep understanding of physical and chemical properties of materials. Bachelor of Science in Chemistry 🎓 2010-2013 🏫 Kannur University, Kerala Dr. Jibin completed his B.Sc. with a solid foundation in chemistry, achieving an 82% score.Higher Secondary Examination 🎓 2008-2010 🏫 Kerala Higher Secondary Education Board Secondary School Leaving Certificate 🎓 2008 🏫 General Education Department

Work Experience

Senior Researcher
📅 January 2019 – Present
🏫 School of Chemical Sciences, Mahatma Gandhi University, Kottayam, Kerala, India
Dr. Jibin Keloth Paduvilan has been serving as a Senior Researcher, contributing significantly to the field of polymer nanocomposites and nanomaterials. His research focuses on developing innovative materials for advanced applications, with a strong emphasis on sustainable and environmentally friendly solutions.Editorial Assistant to NANOSO Journal, Elsevier
📅 January 2019 – Present
📚 NANOSO Journal, Elsevier
Dr. Jibin has been an Editorial Assistant for NANOSO Journal, where he collaborates with leading researchers and ensures the publication of high-quality research in the field of nanoscience and nanotechnology.Junior Research Fellow
📅 October 2017 – October 2019
🏫 International and Inter University Centre for Nanoscience and Nanotechnology, Mahatma Gandhi University, Kottayam, Kerala, India
During his tenure as a Junior Research Fellow, Dr. Jibin honed his skills in the synthesis and characterization of nanomaterials, laying the foundation for his future research endeavors.

Research for Best Scholar Award: Evaluation of Dr. JIBIN K P

Strengths for the Award:

  1. Extensive Research Experience:
    • With over seven years in R&D, Dr. JIBIN K P has demonstrated significant expertise in polymer nanocomposites, hybrid nanostructures, and nanomaterial applications. This extensive experience highlights their deep understanding of material science and innovative research capabilities.
  2. Diverse Research Interests:
    • Their research spans a range of topics including graphene oxide, 2D materials, biopolymers, and environment-friendly materials. This breadth of interest indicates a holistic approach to material science and a commitment to advancing sustainable and cutting-edge technologies.
  3. Notable Publications and Patent:
    • [Your Name] has published impactful research in high-quality journals such as Nanomaterials and has been granted a patent (No. 512432) for core shell structure reinforced natural rubber composites. This demonstrates their ability to translate research into practical and innovative solutions.
  4. Editorial Experience:
    • Serving as an Editorial Assistant to NANOSO Journal, [Your Name] has contributed to the academic community, further reflecting their expertise and engagement in the field of nanoscience and nanotechnology.
  5. Academic Excellence:
    • Their strong educational background, including a Ph.D. in Chemistry with a first-rank Master’s degree, underscores a solid foundation in the subject matter and a commitment to academic excellence.

Areas for Improvement:

  1. Broader Collaboration:
    • Expanding collaborative research efforts with international institutions could provide new perspectives and enhance the impact of their work on a global scale.
  2. Increased Focus on Emerging Trends:
    • Staying updated with emerging trends in material science and nanotechnology, such as advancements in AI applications or new nanomaterial synthesis techniques, could further enhance their research scope and relevance.
  3. Enhancing Public Engagement:
    • Increasing public and industry engagement through seminars, workshops, or popular science articles could elevate the visibility and societal impact of their research findings.

 

✍️Publications Top Note :

 

Advances and Future Outlook in Epoxy/Graphene Composites for Anticorrosive Applications

Authors: JS George, JK Paduvilan, N Salim, J Sunarso, N Kalarikkal, N Hameed

Journal: Progress in Organic Coatings

Volume: 162

Article Number: 106571

Year: 2022

Citations: 67

This article reviews the development of epoxy/graphene composites, emphasizing their potential in anticorrosive applications. The review covers various synthesis methods, the role of graphene in enhancing the anticorrosive properties, and the challenges in producing high-performance composites. The future outlook suggests that further research into functionalized graphene and large-scale production techniques could lead to more effective and commercially viable anticorrosive coatings.

Surface Modification of Wool Fabric Using Sodium Lignosulfonate and Subsequent Improvement in the Interfacial Adhesion of Natural Rubber Latex in the Wool/Rubber Composites

Authors: S Jose, S Thomas, KP Jibin, KS Sisanth, V Kadam, DB Shakyawar

Journal: Industrial Crops and Products

Volume: 177

Article Number: 114489

Year: 2022

Citations: 27

This study focuses on the surface modification of wool fabric using sodium lignosulfonate to improve its compatibility with natural rubber latex. The research highlights the enhanced interfacial adhesion in wool/rubber composites, which could be beneficial for the development of advanced textile materials.

Assessment of Graphene Oxide and Nanoclay Based Hybrid Filler in Chlorobutyl-Natural Rubber Blend for Advanced Gas Barrier Applications

Authors: J Keloth Paduvilan, P Velayudhan, A Amanulla, H Joseph Maria

Journal: Nanomaterials

Volume: 11, Issue 5

Article Number: 1098

Year: 2021

Citations: 25

This article examines the use of graphene oxide and nanoclay as hybrid fillers in chlorobutyl-natural rubber blends, focusing on their potential as gas barrier materials. The study demonstrates that the incorporation of these fillers significantly enhances the gas barrier properties, making the composites suitable for advanced applications in various industries.

Silica-Graphene Oxide Reinforced Rubber Composites

Authors: KP Jibin, V Prajitha, S Thomas

Journal: Materials Today: Proceedings

Volume: 34

Pages: 502-505

Year: 2021

Citations: 18

Conclusion:

Dr. JIBIN K P is a distinguished scholar with a robust track record in the field of polymer nanocomposites and nanotechnology. Their extensive research experience, notable publications, and innovative contributions such as the granted patent showcase their excellence and leadership in material science. Addressing areas for improvement, such as broadening collaborations and staying abreast of emerging trends, could further amplify their impact and recognition in the field. Their dedication and achievements make them a strong candidate for the Best Scholar Award, reflecting both their current excellence and future potential in advancing material science and nanotechnology.

Mohammad Boshir Ahmed | Biomaterials | Best Researcher Award

Published on by Mechanics Awards

Dr. Mohammad Boshir Ahmed | Biomaterials | Best Researcher Award

Dr. The University of Adelaide, Australia

Dr. Mohammad Boshir Ahmed is a Future Making Fellow at the University of Adelaide’s Institute for Sustainability, Energy and Resources, with a research focus on carbon fibers, polymeric biomaterials, and environmental remediation. He previously held a Brain Pool Fellowship at Gwangju Institute of Science and Technology in South Korea. Dr. Ahmed earned his Ph.D. in Environmental Engineering from the University of Technology Sydney, Australia, where his research explored the removal of antibiotics and endocrine disruptors using biochar. His academic and industrial experience includes teaching, product development, and leading significant research projects.

 

Professional Profiles:

scopus

Google scholar

Orcid

🏢 Employment History

Future Making Fellow (FMF), 01/2024-Present
Institute for Sustainability, Energy and Resources (ISER), Chemical Engineering;
The University of Adelaide (UoA), Australia.Brain Pool Fellow (BPF), 07/2019-12/2023
Bioelectronics Materials Laboratory; School of Materials Science and Engineering;
Gwangju Institute of Science and Technology (GIST), South Korea.
Mentor: Prof. Myung-Han YoonAssistant Teacher (Chemistry and Science), 01/2013-08/2014
Nakhalpara Hossain Ali High School, Bangladesh.Product Development Officer, 10/2010-11/2012
Beauty Care Cosmetics & Chemicals, Bangladesh.

🎓 Educational Background

Ph.D., Environmental Engineering, University of Technology (UTS), 01/2015-11/2018
Sydney, Australia.
Supervisor: Prof. John L Zhou
Thesis Title: “Mechanistic insights into antibiotics and endocrine disruptor’s removal by wood-derived biochar, functionalized biochar, and biochar composite”MSc. (Research), Applied Chemistry & Chemical Technology, 06/2009-06/2011
University of Rajshahi, Bangladesh.
GPA: 4.00 (out of 4.00), Distinction, 5th Position
Supervisor: Prof. Shahidur Rahman
Project Title: “Bio-oil production from woody biomass under different heating rate conditions”BSc, Applied Chemistry & Chemical Technology, 04/2004-03/2009
University of Rajshahi, Bangladesh
GPA: 3.91 (out of 4.00), Distinction, 1st Position (Gold medal)

🛠 Completed Projects in South Korea

Development of Polymer-Based Carbon Nanostructure Doping for Electrical and Energy Applications
Funded by NRF, South Korea.
Synopsis: Development of carbon fiber-based free-standing electrodes for electrical and energy applications.Natural Polymer-Based Hydrogel Fiber for Soft Bioelectronics and Agricultural Materials
Synopsis: Development of totally natural polymer and natural macromolecule-based hydrogel without using any toxic cross-linkers.Development of 3D Arbitrary-Shaped Soft Conductive Structures via Conducting Polymer’s Structure-Property Relation Study
Synopsis: Development of soft conductive structures.

📚 Research and Teaching Experiences

Brain Pool Fellow (BPF), 07/2019-12/2023
Bioelectronics Materials Laboratory; School of Materials Science and Engineering;
Gwangju Institute of Science and Technology (GIST), South Korea.
Mentor: Prof. Myung-Han YoonPresented research updates in lab and subgroup meetings.Participated in project meetings, preparation of refereed journal publications, conferences, and seminars.Investigated carbon fiber and hydrogel fiber, composite materials preparation, and conductive polymers-based composite preparation.Assisted with the supervision of undergraduate, MSc, and Ph.D. student projects.Teaching Assistant, 03/2017-12/2018
Environmental Engineering, University of Technology Sydney, Australia.Developed coursework, online content, and assessments.Guided students through laboratory projects and manuscript writing.Doctoral Research, 01/2015-11/2018
Environmental Engineering, University of Technology Sydney, Australia.Designed pyrolysis reactor for biochar preparation.Developed new analytical methods for π-π electron-donor interactions.Guided capstone students and helped other students in manuscript writing.Assistant Teacher, 01/2013-08/2014
Chemistry and Science, Nakhalpara Hossain Ali High School, Bangladesh.Developed coursework and conducted classes for grades IX and X.Product Development Officer, 10/2010-11/2012
Beauty Care Cosmetics & Chemicals, Bangladesh.Engaged in product formulation, analysis, and preparation.

🎓 Teaching and Research Interests

Teaching Inductions and Certificates:
Completed teaching inductions and obtained certificates from the University of Adelaide.Teaching Interests:
Introductory Chemistry, General Chemistry, Chemical Engineering, Environmental Engineering, Materials Science and Engineering, Separation Processes, Chemical Reaction Engineering, Physical Chemistry, Advanced Inorganic Chemistry, Organic Chemistry, Environmental Chemistry, Chemical Technology, Instrumental Methods, Polymer Science, Fuel and Energy Engineering, Petrochemical Engineering, Pharmaceutical Chemistry, Material Engineering, Nano-Science and Technology, and related courses. I deploy interactive teaching methodologies and a creative teamwork approach to knowledge transfer.Research Expertise: Carbon fibers and polymeric biomaterials synthesis for energy and bioelectronics applications; natural polymer-based hydrogel scaffold and 3-D nanostructures fabrication for soft electronics and agricultural applications; catalyst preparation and environmental remediation.

Dr. Mohammad Boshir Ahmed for Best Researcher Award

Strengths for the Award:

  1. Diverse Research Expertise: Dr. Ahmed has a rich and diverse research background that spans environmental engineering, materials science, and nanotechnology. His work in carbon fibers, polymeric biomaterials, and bioelectronics has led to significant advancements, particularly in the areas of energy applications and environmental remediation. His ability to work on interdisciplinary projects demonstrates a strong versatility that is crucial for impactful research.
  2. High-Impact Publications: Dr. Ahmed has an impressive portfolio of publications in high-impact journals, such as Scientific Reports and Journal of Thermal Analysis and Calorimetry. His work on biochar, nanofluids, and functionalized materials for pollutant removal is highly cited, indicating the relevance and impact of his research in the scientific community.
  3. Successful Research Funding: Securing multiple research grants, including substantial funding from the National Research Foundation of Korea and the University of Adelaide, showcases Dr. Ahmed’s ability to propose and execute high-value projects. This demonstrates his credibility and the trust that the scientific and funding communities place in his work.
  4. International Experience and Collaborations: His experience as a Brain Pool Fellow in South Korea and his current position as a Future Making Fellow in Australia highlight his international exposure and ability to collaborate across borders. Working under renowned mentors like Prof. Myung-Han Yoon has provided him with strong mentorship, enhancing his research output and international network.
  5. Teaching and Mentorship: In addition to his research, Dr. Ahmed has contributed significantly to teaching and mentoring students at various levels. His ability to guide students in research and develop coursework adds value to his profile as an academic leader.

Areas for Improvement:

  1. Focused Research Themes: While Dr. Ahmed’s interdisciplinary approach is a strength, narrowing down his research focus to a few key themes could potentially increase the depth and specialization of his work. This could lead to more groundbreaking discoveries in specific areas of biomaterials and environmental engineering.
  2. Industrial Collaborations and Commercialization: Increasing collaborations with industry and focusing on the commercialization of his research could enhance the practical impact of his work. His past experience with industrial projects, such as the one with Samsung, indicates potential in this area that could be further developed.
  3. Leadership in Large-Scale Projects: Taking on leadership roles in large-scale, multi-institutional projects could further establish Dr. Ahmed as a leading figure in his field. This would also provide opportunities to manage larger teams and resources, thereby boosting his profile for major awards.

✍️Publications Top Note :

Progress in the Biological and Chemical Treatment Technologies for Emerging Contaminant Removal from Wastewater: A Critical Review

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, NS Thomaidis, J Xu

Journal: Journal of Hazardous Materials

Citations: 1,177

Year: 2017

Adsorptive Removal of Antibiotics from Water and Wastewater: Progress and Challenges

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Science of the Total Environment

Citations: 1,098

Year: 2015

Progress in the Preparation and Application of Modified Biochar for Improved Contaminant Removal from Water and Wastewater

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, M Chen

Journal: Bioresource Technology

Citations: 770

Year: 2016

Industrial Metal Pollution in Water and Probabilistic Assessment of Human Health Risk

Authors: N Saha, MS Rahman, MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Journal of Environmental Management

Citations: 460

Year: 2017

Recent Developments of Carboxymethyl Cellulose

Authors: MS Rahman, MS Hasan, AS Nitai, S Nam, AK Karmakar, MS Ahsan, …

Journal: Polymers

Citations: 401

Year: 2021

Insight into Biochar Properties and Its Cost Analysis

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo

Journal: Biomass and Bioenergy

Citations: 348

Year: 2016

Single and Competitive Sorption Properties and Mechanism of Functionalized Biochar for Removing Sulfonamide Antibiotics from Water

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, MAH Johir, K Sornalingam

Journal: Chemical Engineering Journal

Citations: 331

Year: 2017

Activated Carbon Preparation from Biomass Feedstock: Clean Production and Carbon Dioxide Adsorption

Authors: MB Ahmed, MAH Johir, JL Zhou, HH Ngo, LD Nghiem, C Richardson, MA Moni, MR …

Journal: Journal of Cleaner Production

Citations: 249

Year: 2019

Zeolite Synthesis from Low-Cost Materials and Environmental Applications: A Review

Authors: A Khaleque, MM Alam, M Hoque, S Mondal, JB Haider, B Xu, MAH Johir, …

Journal: Environmental Advances

Citations: 219

Year: 2020

Competitive Sorption Affinity of Sulfonamides and Chloramphenicol Antibiotics Toward Functionalized Biochar for Water and Wastewater Treatment

Authors: MB Ahmed, JL Zhou, HH Ngo, W Guo, MAH Johir, D Belhaj

Journal: Bioresource Technology

Citations: 200

Year: 2017

Conclusion:

Dr. Mohammad Boshir Ahmed is a strong candidate for the Best Researcher Award due to his extensive research contributions, interdisciplinary expertise, and international experience. His work is not only academically significant but also has real-world applications that address critical issues in sustainability, energy, and environmental health. By focusing on thematic specialization, enhancing industrial collaborations, and taking on leadership roles in large-scale projects, Dr. Ahmed can further solidify his standing as a leading researcher in his field.

 

Dr. Saira Naz | Fluid Mechanics and Nanotechnology | Best Researcher Award

Published on by Mechanics Awards

Dr. Saira Naz | Fluid Mechanics and Nanotechnology | Best Researcher Award

Dr. Saira Naz, Giresun Üniversity, Turkey

I am an experienced academic professional with a PhD in Mathematics from Quaid-i-Azam University, Islamabad. My academic journey also includes an M.Phil. in Applied Mathematics, an M.Sc. in Mathematics, and a B.Sc. from the same institution. I hold a B.Ed from Allama Iqbal Open University. I have served as a faculty member at Air University and a visiting faculty at Bahria University, with additional teaching experience at Islamabad College of Management & Commerce and Spring Field Public School. I have attended multiple international conferences on fluid mechanics, reflecting my active engagement in continuous professional development.

Professional Profiles:

Scopus

Professional Qualification 📜

B.Ed: Allama Iqbal Open University, Islamabad (2015).

Experience 💼

Serving as a Faculty in Air University, IslamabadServing as a Visiting Faculty in Bahria UniversityServed as a permanent faculty (Teaching experience at F.Sc and B.Sc level) in Islamabad College of Management & Commerce, RawalpindiWorked as a lecturer in the Spring Field Public School and College, Harley-2 Campus, Harley Street, Rawalpindi

Conferences Attended 📚

Attended 7th International Conference on “Recent Developments in Fluid Mechanics” February 13-15, 2018.Attended 9th International Conference on “Recent Developments in Fluid Mechanics” November 27-29, 2023.Attended Conference on “Emerging Issues”

Career Objective 🌟

To work with an organization that enhances my abilities and where I can use my academic and technical experience to grow with the organization.

✍️Publications Top Note :

1. Significance of Nonlinear Radiation in Entropy Generated Flow of Ternary-Hybrid Nanofluids with Variable Thermal Conductivity and Viscous Dissipation

Authors: Naz, S., Hayat, T., Adil Sadiq, M., Momani, S.
Journal: Ain Shams Engineering Journal, 2024, 15(7), 102792
Citations: 1
Abstract: Not available
Related Documents: Not available

This article explores the impact of nonlinear radiation on the entropy generated in flows of ternary-hybrid nanofluids, considering the effects of variable thermal conductivity and viscous dissipation. The study is crucial for enhancing the efficiency of thermal systems involving nanofluids.

2. Melting and Dissipative Effects About Entropy Induced Darcy-Forchheimer Flow Involving Ternary-Hybrid Nanofluids

Authors: Hayat, T., Naz, S., Alsaedi, A., Momani, S.
Journal: Case Studies in Thermal Engineering, 2024, 55, 104097
Citations: 3
Abstract: Not available
Related Documents: Not available

This research investigates the melting and dissipative effects in entropy-induced Darcy-Forchheimer flow with ternary-hybrid nanofluids. The findings provide insights into optimizing heat transfer processes in engineering applications.

3. Entropy Optimized Radiative Flow Conveying Hybrid Nanomaterials (MgO-MoS2/C2H6O2) with Melting Heat Characteristics and Cattaneo-Christov Theory: OHAM Analysis

Authors: Naz, S., Hayat, T., Ahmad, B., Momani, S.
Journal: Ain Shams Engineering Journal, 2024, 102892
Citations: 0
Abstract: Not available
Related Documents: Not available

This article discusses the entropy optimization in radiative flow of hybrid nanomaterials, incorporating MgO-MoS2/C2H6O2, considering melting heat characteristics and applying the Cattaneo-Christov theory. The analysis is performed using the Optimal Homotopy Asymptotic Method (OHAM).

4. Soret and Dufour Impacts in Entropy Optimized MHD Flow by Third-Grade Liquid Involving Variable Thermal Characteristics

Authors: Hayat, T., Naz, S., Momani, S.
Journal: Numerical Heat Transfer; Part A: Applications, 2024
Citations: 0
Abstract: Not available
Related Documents: Not available

This study focuses on the Soret and Dufour effects in magnetohydrodynamic (MHD) flow of a third-grade liquid, optimized for entropy, considering variable thermal characteristics. The results have implications for advanced fluid dynamics and thermal management systems.

5. Numerical Modeling and Analysis of Non-Newtonian Nanofluid Featuring Activation Energy

Authors: Naz, S., Gulzar, M.M., Waqas, M., Hayat, T., Alsaedi, A.
Journal: Applied Nanoscience (Switzerland), 2020, 10(8), pp. 3183–3192
Citations: 6
Abstract: Not available
Related Documents: Not available

This paper presents a numerical analysis of non-Newtonian nanofluids with activation energy. The study offers valuable data for designing and improving heat transfer systems utilizing nanofluids.

6. Hydromagnetic Carreau Nanoliquid in Frames of Dissipation and Activation Energy

Authors: Waqas, M., Naz, S., Hayat, T., Ijaz Khan, M., Alsaedi, A.
Journal: Communications in Theoretical Physics, 2019, 71(12), pp. 1416–1424
Citations: 12
Abstract: Not available
Related Documents: Not available

This article examines the behavior of hydromagnetic Carreau nanoliquids, incorporating dissipation and activation energy effects. The findings contribute to the field of fluid mechanics and thermal conductivity enhancement.

7. Numerical Simulation for Activation Energy Impact in Darcy–Forchheimer Nanofluid Flow by Impermeable Cylinder with Thermal Radiation

Authors: Waqas, M., Naz, S., Hayat, T., Alsaedi, A.
Journal: Applied Nanoscience (Switzerland), 2019, 9(5), pp. 1173–1182
Citations: 20
Abstract: Not available
Related Documents: Not available

This study uses numerical simulation to analyze the impact of activation energy on Darcy-Forchheimer nanofluid flow around an impermeable cylinder, considering thermal radiation. The research offers insights into the heat transfer characteristics of nanofluids in complex geometries.

8. Effectiveness of Improved Fourier-Fick Laws in a Stratified Non-Newtonian Fluid with Variable Fluid Characteristics

Authors: Waqas, M., Naz, S., Hayat, T., Shehzad, S.A., Alsaedi, A.
Journal: International Journal of Numerical Methods for Heat and Fluid Flow, 2019, 29(6), pp. 2128–2145
Citations: 14
Abstract: Not available
Related Documents: Not available

This paper assesses the effectiveness of improved Fourier-Fick laws in a stratified non-Newtonian fluid with variable characteristics. The research contributes to the understanding of heat and mass transfer in complex fluid systems.

9. Effectiveness of Darcy-Forchheimer and Nonlinear Mixed Convection Aspects in Stratified Maxwell Nanomaterial Flow Induced by Convectively Heated Surface

Authors: Hayat, T., Naz, S., Waqas, M., Alsaedi, A.
Journal: Applied Mathematics and Mechanics (English Edition), 2018, 39(10), pp. 1373–1384
Citations: 24
Abstract: Not available
Related Documents: Not available