Rudi Dungani | Materials Science | Best Researcher Award

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Rudi Dungani | Materials Science | Best Researcher Award

Assoc Prof Dr Rudi Dungani ,Institut Teknologi Bandung, Indonesia

Assoc. Prof. Dr. Rudi Dungani appears to be a strong candidate for the Best Researcher Award. His extensive research and contributions in biocomposites, nanocellulose, and polymer composites align well with criteria for innovation and academic excellence. Here are key points that support his candidacy:

Publication profile

Scopus

  1. Academic and Research Excellence: Dr. Dungani has a diverse academic background, with a Doctorate in Industrial Technology and substantial research grants focused on cutting-edge materials like nanocomposites and biopolymers. His work addresses sustainability challenges, particularly with bio-based materials.
  2. Publications and Impact: With numerous publications in high-impact journals like Bioresource Technology and Polymers, his research in materials science is well-cited, reflected by his Google Scholar H-index of 27 and Scopus H-index of 24. His patents also demonstrate a strong emphasis on innovation in nanomaterials and bio-composites.
  3. Recognition and Awards: He has received several prestigious awards, including being named in Stanford University’s list of the World’s Top 2% Scientists for three consecutive years, a clear indication of his influence and leadership in the field.
  4. Patents and Innovation: Dr. Dungani’s registered patents on nanocellulose and biocomposites underscore his contributions to advancing sustainable materials.
  5. International Collaboration and Mentorship: His work with international journals, collaborations on research projects, and contributions to conferences and seminars show his commitment to knowledge dissemination and global impact.

In summary, Dr. Dungani’s remarkable body of work in biocomposites, recognition from peers, and continued innovation make him an outstanding candidate for a Best Researcher Award.

Publication top notes

Physical, mechanical, and electrical conductivity characteristics of coconut shell-based H3PO4-Activated carbon/epoxy nanocomposites

A sustainable in situ synthesis of hydrophobic tung oil epoxy bifunctional nanocomposites with potential fire retardant and antioxidant properties

Preparation of superhydrophobic biomedical pulp from rice straw coated with a stearic acid-cellulose composite

Performance of Particleboard Made of Agroforestry Residues Bonded with Thermosetting Adhesive Derived from Waste Styrofoam

 

Dipankar Das | Materials Science | Young Scientist Award

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Mr. Dipankar Das | Materials Science | Young Scientist Award

Mr. Dipankar Das, Tripura University, India

Publication profile

Academic & Professional Qualifications:

Mr. Dipankar Das has a solid academic background, currently pursuing a Ph.D. in Materials Science and Engineering at Tripura University. He completed his M.Tech. in the same field from Tripura University in 2018, and holds a B.Tech. in Mechanical Engineering from Dr. A.P.J. Abdul Kalam Technical University, Uttar Pradesh (2016). His foundational education includes a diploma in Mechanical Engineering and secondary education from the Tripura Board of Secondary Education.

Professional Experience:

Mr. Das has gained valuable research experience as a Junior and Senior Project Fellow at Tripura University from July 2018 to March 2021. His responsibilities focused on research and development in the Department of Material Science and Engineering, contributing to significant academic projects.

Awards & Distinctions:

Mr. Das has been recognized with numerous awards and certifications throughout his academic and professional journey. Notable achievements include the Dr. B. R. Ambedkar Memorial Award, multiple prizes in science exhibitions, and certifications in AutoCAD, Product Design Development, and 3D Printing Technology. He also excelled in competitions like the Smart India Hackathon 2019 and received prestigious awards for his research presentations and prototypes at various national and international conferences. Recently, he was awarded the Daniel Gabriel Fahrenheit Scholarship at the University of Gdansk, Poland, in October 2023.

Publication Top Notes

  • Geopolymer bricks: The next generation of construction materials for sustainable environment | 2024 | Construction and Building Materials | Cited by: Not Available šŸ“ššŸ—ļø
  • Coal Fly Ash Utilization in India | 2023 | New Horizons for Industry 4.0 in Modern Business | Cited by: Not Available šŸ­šŸŒ
  • Preparation of Cellulose Hydrogels and Hydrogel Nanocomposites Reinforced by Crystalline Cellulose Nanofibers (CNFs) as a Water Reservoir for Agriculture Use | 2023 | ACS Applied Polymer Materials | Cited by: Not Available šŸ’§šŸŒ±
  • Synthesis of Inorganic Polymeric Materials from Industrial Solid Waste | 2023 | Silicon | Cited by: Not Available šŸ­āš›ļø
  • A Review of Coal Fly Ash Utilization to Save the Environment | 2023 | Water, Air, & Soil Pollution | Cited by: Not Available šŸžļøšŸŒ±
  • Cellulose: a fascinating biopolymer for hydrogel synthesis | 2022 | Journal of Materials Chemistry B | Cited by: Not Available šŸŒ±šŸ§Ŗ
  • Effect of Diesel-Turpentine binary blends on performance, combustion, exergy, and emission parameters of a stationary compression ignition engine | 2022 | Journal of Thermal Analysis and Calorimetry | Cited by: Not Available šŸš›šŸ”„
  • Mullite Ceramics Derived from Fly Ash Powder by Using Albumin as an Organic Gelling Agent | 2022 | Biointerface Research in Applied Chemistry | Cited by: Not Available šŸŗāš—ļø
  • Effect of mechanical milling of fly ash powder on compressive strength of geopolymer | 2022 | Materials Today: Proceedings | Cited by: Not Available šŸ› ļøšŸ—ļø
  • Fabrication of Mullite Ceramic by Using Industrial Waste | 2022 | Smart Cities: Concepts, Practices, and Applications | Cited by: Not Available šŸ™ļøšŸ­
  • Synthesis and Characterization of Fly Ash and GBFS Based Geopolymer Material | 2021 | Biointerface Research in Applied Chemistry | Cited by: Not Available āš›ļøšŸ—ļø
  • Synthesis and Characterization of Superabsorbent Cellulose-Based Hydrogel for Agriculture Application | 2021 | Starch – StƤrke | Cited by: Not Available šŸŒ±šŸ’§
  • Synthesis, Characterization and Properties of Fly Ash Based Geopolymer Materials | 2021 | Journal of Materials Engineering and Performance | Cited by: Not Available šŸ—ļøāš›ļø
  • A Review of Advanced Mullite Ceramics | 2021 | Engineered Science | Cited by: Not Available šŸŗšŸ§Ŗ
  • Effect of Slag Addition on Compressive Strength and Microstructural Features of Fly Ash Based Geopolymer | 2021 | Circular Economy in the Construction Industry | Cited by: Not Available ā™»ļøšŸ—ļø
  • Industrial solid wastes and their resources | 2021 | Emerging Trends in Science and Technology | Cited by: Not Available šŸ­ā™»ļø
  • E-Waste Management in India ā€“ A Review | 2021 | Future of E-waste Management: Challenges and Opportunities | Cited by: Not Available ā™»ļøšŸ”‹
  • Utilization of thermal industry waste: From trash to cash | 2019 | Carbon ā€“ Science and Technology | Cited by: Not Available šŸ’°ā™»ļø

Conclusion:

Given Mr. Das’s strong academic foundation, research experience, and numerous accolades, he appears to be a suitable candidate for the Research for Young Scientist Award. His dedication to materials science and engineering, coupled with his recognition in both national and international platforms, aligns well with the criteria for this prestigious award.

Shaolong Li | Materials Science | Best Researcher Award

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Mr. Shaolong Li | Materials Science | Best Researcher Award

Doctoral student, Xi’an University of Technology, China

Shaolong Li is a Ph.D. student in Materials Science and Engineering at Xiā€™an University of Technology, China, and a visiting research student at City University of Hong Kong. His research focuses on the configurational design of heterogeneous structured titanium matrix composite materials using powder metallurgy and additive manufacturing technologies. šŸŒŸšŸ”¬

Profile

scopus

orcid

Education šŸŽ“

  • Bachelor of Engineering in Materials Physics and Chemistry, Xiā€™an University of Technology, China (Sep. 2016 ā€“ Jul. 2020)
  • Ph.D. student in Materials Science and Engineering, Xiā€™an University of Technology, China (Sep. 2020 ā€“ Present)
  • Visiting Research Student in Materials Science and Engineering, City University of Hong Kong (Feb. 2024 ā€“ Present)

Experience šŸ§ŖšŸ“ˆ

Shaolong Li has led significant research projects, including being the Principal Investigator for the Doctoral Study Abroad Joint Education Fund at Xi’an University of Technology, with a funding of $12,000. His work is dedicated to understanding and improving the properties of titanium matrix composites.

Research Interests šŸ”¬šŸ“Š

Shaolong Li’s research interests include heterogeneous structures, high-temperature softening mechanisms, the Hall-Petch relationship, powder metallurgy, and additive manufacturing. His studies aim to reveal the strengthening-toughening mechanisms of titanium matrix composites through advanced characterization techniques.

AwardsšŸ…šŸŽ–ļø

Outstanding Undergraduate Thesis at the University Level, 2020

National Scholarship for Graduate Students, 2022

Academic Scholarship for Graduate Students, 2021, 2023

Excellent Academic Report, Xi’an University of Technology, 2023

Excellent Academic Report, Chinese Society for Composite Materials, 2023

Publications Top Notes šŸ“š

High-temperature “Inverse” Hall-Petch relationship and fracture behavior of TA15 alloy International Journal of Plasticity, 2024- Link

Achieving back-stress strengthening at high temperature via heterogeneous distribution of nano TiBw in TC4 alloy by electron beam powder bed fusion Materials Characterization, 2024- Link

High temperature softening mechanism of powder metallurgy TA15 alloy Materials Science and Engineering: A, 2023- Link

Microstructure and mechanical properties of TiC+TiB reinforced TC4 matrix composites prepared by in-situ reaction of powder metallurgy TC4-B4C The Chinese Journal of Nonferrous Metals, 2023- Link

Loss-free tensile ductility of dual-structure titanium composites via an interdiffusion and self-organization strategy Proceedings of the National Academy of Sciences of the United States of America, 2023- Link

 

 

 

 

 

Cheng-FeiCao | Functional Composite Materials | Best Researcher Award

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Dr. Cheng-FeiCao | Functional Composite Materials | Best Researcher Award

Dr. Cheng-FeiCao, University of Southern Queensland, Australia

šŸŽ“ Cheng-Fei Cao, a research fellow at USQ’s Centre for Future Materials, earned his PhD in Materials Engineering in Jan. 2024 under Prof. Hao Wang’s mentorship. Specializing in functional polymeric nanocomposites, bio-inspired film materials, and flame-retardant coatings, he’s a prolific author with 25 publications in top-tier journals like ACS Nano. With 1,600+ citations and an H-index of 17, his research on smart fire alarm sensors has made a significant impact. šŸ“ššŸ”¬

Publication Profile:

Scopus

orcid

Google Scholar

Education:

Cheng-Fei Cao earned his PhD in Materials Engineering from the University of Southern Queensland (USQ) in January 2024. His doctoral research focused on functional polymeric nanocomposites, bio-inspired film materials, multifunctional flame-retardant coatings, and smart fire alarm sensors.

Experience:

Currently, Cheng-Fei Cao serves as a research fellow at the Centre for Future Materials, USQ, Australia. Under the guidance of Prof. Hao Wang, Editor-in-Chief of Composites Part B: Engineering, he conducts research in advanced materials science, particularly in the aforementioned areas of expertise.

Academic Achievements:

Throughout his academic journey, Cheng-Fei Cao has co-authored 25 peer-reviewed publications in esteemed international journals like ACS Nano, Adv. Funct. Mater., and Adv. Sci. His research has garnered significant attention, accumulating over 1,600 citations and boasting an H-index of 17 according to Google Scholar. These achievements underscore his contributions to the advancement of materials engineering and his standing within the academic community.

Research Focus:

Cheng-Fei Cao’s research focus lies in the development of innovative materials for fire detection and prevention. šŸ§Æ His work primarily revolves around creating efficient flame detection and early warning sensors using advanced coatings and nanomaterials. Through his studies, he explores the design and fabrication of flame-retardant materials with enhanced functionalities, such as temperature responsiveness and mechanical flexibility. Cao’s contributions extend to bio-inspired approaches for sustainable fire protection and warning systems. With a keen interest in functional polymeric nanocomposites and smart sensor technology, he endeavors to advance fire safety measures with cutting-edge solutions. šŸ”„šŸ”¬

Publication Top Notes:

  1. Efficient flame detection and early warning sensors on combustible materials using hierarchical graphene oxide/silicone coatings šŸ“ Published in ACS nano in 2018, cited 231 times.
  2. Facile and green fabrication of flame-retardant Ti3C2Tx MXene networks for ultrafast, reusable and weather-resistant fire warning šŸ“ Published in Chemical Engineering Journal in 2022, cited 158 times.
  3. Temperature-responsive resistance sensitivity controlled by L-ascorbic acid and silane co-functionalization in flame-retardant GO network for efficient fire early-warning response šŸ“ Published in Chemical Engineering Journal in 2020, cited 137 times.
  4. Silane grafted graphene oxide papers for improved flame resistance and fast fire alarm responsešŸ“ Published in Composites Part B: Engineering in 2019, cited 137 times.
  5. Facile and green synthesis of mechanically flexible and flame-retardant clay/graphene oxide nanoribbon interconnected networks for fire safety and prevention šŸ“ Published in Chemical Engineering Journal in 2021, cited 124 times.
  6. Design of mechanically stable, electrically conductive and highly hydrophobic three-dimensional graphene nanoribbon composites by modulating the interconnected network onĀ ā€¦ šŸ“ Published in Composites Science and Technology in 2019, cited 97 times.
  7. Fire intumescent, high-temperature resistant, mechanically flexible graphene oxide network for exceptional fire shielding and ultra-fast fire warning šŸ“ Published in Nano-Micro Letters in 2022, cited 92 times.
  8. Smart fire-warning materials and sensors: Design principle, performances, and applications šŸ“ Published in Materials Science and Engineering: R: Reports in 2022, cited 90 times.
  9. One-step and green synthesis of lightweight, mechanically flexible and flame-retardant polydimethylsiloxane foam nanocomposites via surface-assembling ultralow content ofĀ ā€¦ šŸ“ Published in Chemical Engineering Journal in 2020, cited 89 times.
  10. Bio-inspired, sustainable and mechanically robust graphene oxide-based hybrid networks for efficient fire protection and warning šŸ“ Published in Chemical Engineering Journal in 2022, cited 86 times.