Rudi Dungani | Materials Science | Best Researcher Award

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