Nasruddin Nasruddin | Chemistry and Materials Science | Innovative Research Award

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Mr. Nasruddin Nasruddin | Chemistry and Materials Science | Innovative Research Award

Mr. Nasruddin Nasruddin | Chemistry and Materials Science | Innovative Research Award | Researchers | National Research and Innovation Agency | Indonesia

Mr. Nasruddin Nasruddin is a highly accomplished Principal Researcher at the National Research and Innovation Agency of the Republic of Indonesia, recognized for his extensive expertise in functional rubber, advanced polymer materials, and sustainable industrial applications. With a strong academic foundation built through his Master’s and Doctoral degrees in Agro-Industry from Sriwijaya University, he has dedicated his career to advancing natural rubber technology, composite materials, and environmentally responsible fillers that enhance product performance in tire manufacturing, asphalt modification, industrial components, and polymer-based engineering systems. His professional experience spans comprehensive research on natural rubber, synthetic rubber blends, graphene-reinforced composites, bio-based fillers such as sawdust-derived activated carbon, palm-oil-based zinc stearate, and innovative materials for solid tires, sponge applications, and waterproof fabrics. He has also contributed to material optimization studies involving sodium bicarbonate, kaolin, diene monomers, and natural latex grafting technologies, positioning him as a national leader in applied rubber science. His research interests include polymer formulation, composite characterization, rheological and mechanical property analysis, and the development of advanced fillers and softeners derived from renewable resources. His research skills cover experimental material design, industrial-scale process evaluation, performance testing, and collaboration with multidisciplinary teams across national laboratories, industrial partners, and academic institutions. Throughout his career, he has produced an extensive body of peer-reviewed work in reputable journals such as Applied Sciences, Polymers, Results in Engineering, Key Engineering Materials, the Indonesian Journal of Chemistry, and various IOP and AIP conference series, contributing significantly to national and global scientific progress. His contributions extend to community involvement through knowledge dissemination, participation in conferences, collaborative research programs, and support for Indonesia’s innovation agenda in sustainable materials. His work has received recognition in the form of professional impact, successful project outcomes, and contributions to industrial development, reflecting his commitment to excellence and innovation. With a research portfolio that supports environmentally conscious material engineering and provides practical solutions for industrial challenges, he continues to advance Indonesia’s leadership in rubber technology. In conclusion, Mr. Nasruddin Nasruddin stands out as an influential researcher whose expertise, productivity, and dedication to sustainable polymer development make him a vital contributor to scientific progress and industrial innovation, and his ongoing leadership continues to inspire future advancements in functional rubber materials.

Profile: ORCID 

Featured Publications

  1. Wulandari, E. P., Marlina, P., Nasruddin, N., et al. (2025). Application of sawdust-derived activated carbon as a bio-based filler in vulcanized rubber bushings. Polymers.

  2. Nasruddin, N., Setianto, W. B., Atmaji, P., et al. (2024). Utilization of spent bleaching earth as green filler and plasticizer in the manufacture of rubber compounds for solid tire production. Results in Engineering.

  3. Setianto, W. B., Nasruddin, N., Astuti, A., et al. (2024). The influence of palm-oil-based zinc stearate application on vulcanized rubber: Analyzing hardness, tensile strength, and elongation at break for hand grip formulation development. Key Engineering Materials.

  4. Nasruddin, N., Setianto, W. B., Atmaji, P., et al. (2024). Enhancing asphalt mix solubility with sodium bicarbonate leavening in vulcanized rubber: A regulatory-compliant approach. IOP Conference Series: Earth and Environmental Science.

  5. Ibrahim, B., Wiranata, A., Zahrina, I., Sentosa, L., Nasruddin, N., & Muharam, Y. (2024). Phase separation study on the storage of technically specified natural rubber modified bitumen. Applied Sciences.

  6. Nasruddin, N., Agustini, S., Bondan, A. T., et al. (2023). Study of selection of synthetic rubber as composite material with natural rubber for the outer coating of solid foam tires. AIP Conference Proceedings.

  7. Nasruddin, N., Setianto, W. B., Yohanes, H., et al. (2023). Characterization of natural rubber, styrene-butadiene rubber, and nitrile-butadiene rubber monomer blend composites loaded with zinc stearate to be used in the solid tire industry. Applied Sciences.

 

Lin Gu | Advanced Materials Engineering | Best Researcher Award

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Lin Gu | Advanced Materials Engineering | Best Researcher Award

 Lin Gu, Fudan University, China

Dr. Lin Gu is a distinguished researcher in wide bandgap semiconductor materials, particularly Ga2O3-diamond composites. He earned recognition with the National Scholarship for Master’s Students at Fudan University (2021-2022) and has authored over 20 influential papers in top journals like Nano Energy and Applied Surface Science. Notable works include research on thermal management and heat transfer in semiconductor materials. Dr. Gu received multiple awards, including Fudan University’s Professional Master’s Excellent Academic Scholarship and the Outstanding Graduate of Shanghai award. His dedication, collaborative spirit, and impactful research make him a leading figure in material science. 📚🔬🏅

Publication  Profile

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Educational Background

Dr. Lin Gu earned the prestigious National Scholarship for Master’s Students during his time at Fudan University in 2021-2022. His research focuses on enhancing semiconductor materials, particularly Ga2O3-diamond composites. His work tackles crucial challenges in thermal management and interfacial heat transfer, aiming to improve the performance of high-power electronics. By addressing these key areas, Dr. Gu’s research has the potential to advance the efficiency and reliability of electronic devices, especially those operating under extreme conditions. His contributions are poised to make a significant impact in the field of semiconductor materials and electronic engineering.

Experience

Dr. Lin Gu is a dedicated engineer with extensive experience in wide bandgap semiconductor materials and processes 🌟🔬. From 2016 to 2021, he contributed significantly at Optorun (Shanghai) Co., Ltd. 💼. He actively participated in the prestigious Shanghai 2021 Science and Technology Innovation Action Plan 🚀📚. With over 20 published papers, including four as the first author and one as a co-corresponding author 📝📖, his academic contributions are noteworthy. He has also presented at esteemed conferences like IFWS and SSLCHINA in 2023, delivering oral and poster presentations 🎤📊. Currently, his collaborative work is under review in EES 🌐📑.

Awards and Recognition

Dr. Lin Gu is a distinguished researcher whose excellence has garnered widespread recognition. He earned the prestigious First Prize in Fudan University’s Professional Master’s Excellent Academic Scholarship for two consecutive academic years (2021-2023), reflecting his dedication and outstanding performance. In 2024, Dr. Gu was also honored as an Outstanding Graduate of Shanghai, further emphasizing his exceptional contributions to his field. His achievements are a testament to his academic excellence, commitment to research, and consistent drive for success. 🌟🎓🏆

Honors

Dr. Lin Gu is an outstanding academic achiever, having been awarded the prestigious National Scholarship for Master’s Students at the Industrial Technology Research Institute of Fudan University for the 2021-2022 academic year. 🏅 In recognition of his excellence, he won the first prize of Fudan University Professional Master’s Excellent Academic Scholarship for both the 2021-2022 and 2022-2023 academic years. 🏆 His dedication and hard work were further acknowledged when he was named an Outstanding Graduate of Shanghai in 2024. 🎓 These remarkable accomplishments reflect his commitment to academic excellence and research in his field. 🌟

Research Focus

Dr. Lin Gu’s research focuses on advanced materials science, particularly the synthesis and characterization of thin films and epitaxial layers using cutting-edge techniques such as Chemical Vapor Deposition (CVD) and Pulsed Laser Deposition (PLD). His work includes optimizing Ga₂O₃ films and heterostructures on diamond substrates, analyzing interfacial heat transfer, and enhancing material properties through annealing treatments. Key applications involve wide-bandgap semiconductors for optoelectronics and power devices. Dr. Gu contributes to understanding microstructural, optical, and chemical behaviors to advance high-performance materials. 🌟🔬📏 His studies are pivotal for developing next-generation electronic components and energy-efficient technologies. 🌍⚡💡

Publication Top Notes

Insights into the effect of susceptor rotational speed in CVD reactor on the quality of 4H-SiC epitaxial layer on homogeneous substrates

The Influence of Annealing Temperature on the Interfacial Heat Transfer in Pulsed Laser Deposition-Grown Ga2O3 on Diamond Composite Substrates

Optimization of Heteroepitaxial Gallium Oxide Thin Films on Diamond Composite Substrates using Pulsed Laser Deposition Method

Investigation of gallium oxide thin film hetero-integrated with bulk diamond via atomic layer deposition

Influence of Nitrogen Annealing Treatment on Optical, Microstructural, and Chemical Properties of Ga<sub>2</sub>O<sub>3</sub> Film Grown by Plasma-Enhanced Atomic Layer Deposition

Influence of Rapid Thermal Annealing on the Characteristics of Sn-Doped Ga2O3 Films Fabricated Using Plasma-Enhanced Atomic Layer Deposition