Dr. Qolby Sabrina is a materials scientist specializing in biopolymer materials for lithium-ion batteries. She earned her Ph.D. from Osaka University ๐ and is currently a Junior Researcher at BRIN, Indonesia. Her work focuses on developing high-performance, eco-friendly polymer electrolytes ๐, enhancing ionic conductivity, mechanical stability, and electrochemical performance. She holds two patents, has published in top-tier journals ๐, and collaborates with Osaka University, Waseda University, and Indonesia Power. As a journal reviewer and research society member, her impact extends beyond academia. Her innovations contribute to next-gen battery technology, making her a top candidate for the Best Researcher Award ๐.
Dr Qolby Sabrina, National Research and Innovation Agency, Indonesia
Profile
GOOGLESCHOLAR
ORCID
SCOPUS
Academic Expertise ๐
Dr. Qolby Sabrina is a Junior Researcher at BRIN, Indonesia ๐ฎ๐ฉ, specializing in material physics and biopolymer materials for battery applications ๐. She recently completed her Ph.D. at Osaka University, Japan ๐ฏ๐ต, focusing on developing eco-friendly polymer electrolytes for next-generation lithium-ion batteries. Her research aims to enhance ionic conductivity, mechanical stability, and electrochemical performance in sustainable energy storage. With a strong academic foundation and expertise in green materials and battery technology, Dr. Sabrina continues to push the boundaries of renewable energy solutions and advanced materials science โก๐.
Research Contributions ๐๏ธ
Dr. Qolby Sabrina is a Junior Researcher at the National Research and Innovation Agency (BRIN), Indonesia ๐ฎ๐ฉ, where she focuses on material physics and sustainable energy solutions. Her expertise lies in biopolymer materials for battery applications ๐, particularly in developing eco-friendly polymer electrolytes for lithium-ion batteries. With a strong background in materials science and electrochemistry โก, she actively contributes to cutting-edge research in energy storage. Dr. Sabrinaโs role at BRIN allows her to collaborate with international institutions ๐, driving innovations in sustainable materials for the future of green energy technologies ๐ฑ.
Research Focus ๐ฌ
Dr. Qolby Sabrina specializes in polymer electrolytes, biopolymer-based energy materials, and nanocellulose applications for sustainable energy storage. Her research advances lithium-ion battery technology, focusing on solid polymer electrolytes to enhance ionic conductivity, mechanical stability, and electrochemical performance.
Her key research areas include:
โ
Biopolymer Electrolytes โ Developing eco-friendly lithium-ion battery separators ๐ฑ๐
โ
Nanocellulose Reinforcement โ Enhancing polymer electrolyte properties using nano-engineered cellulose ๐๏ธ
โ
Dielectric Behavior of Polymers โ Studying ion transport mechanisms in cellulose-based electrolytes โก
โ
Advanced Battery Materials โ Exploring TiOโ, SiOโ, and graphene-based hybrid electrolytes for high-performance energy storage ๐ฌ๐
Publications ๐
Preparation and Characterization of Nanofibrous Cellulose as Solid Polymer Electrolyte for Lithium-Ion Battery Applications ๐
๐ RSC Advances
๐ฉโ๐ฌ Authors: Q. Sabrina, C.R. Ratri, A. Hardiansyah, T. Lestariningsih, A. Subhan, A. Rifai
๐
2021 | Citations: 26
Morphological Characteristics of PVDF-LiBOB-ZrOโ Polymer and Its Potential for Lithium Battery Electrolyte โก
๐ Jurnal Kimia dan Kemasan
๐ฉโ๐ฌ Authors: E.M. Wigayati, I. Purawiardi, Q. Sabrina
๐
2018 | Citations: 13
Influence of TiOโ Addition on Polymer Electrolyte Sheets for Lithium Battery Conductivity & Performance ๐ก๏ธ
๐ J. Material dan Energi Indones
๐ฉโ๐ฌ Authors: T. Lestariningsih, Q. Sabrina, N. Majid
๐
2017 | Citations: 12
Fabrication of Solid Polymer Electrolyte Based on Carboxymethyl Cellulose for Lithium-Ion Battery Separator ๐๏ธ
๐ Polymer Composites
๐ฉโ๐ฌ Authors: D.A. Darmawan, E. Yulianti, Q. Sabrina, K. Ishida, A.W. Sakti, H. Nakai
๐
2024 | Citations: 10
Structure, Thermal, and Electrical Properties of PVDF-HFP/LiBOB Solid Polymer Electrolyte ๐ญ
๐ Journal of Physics: Conference Series
๐ฉโ๐ฌ Authors: T. Lestariningsih, Q. Sabrina, C.R. Ratri, I. Nuroniah
๐
2019 | Citations: 10
Effect of TiOโ and SiOโ Nanofillers on LiBOB-Based Solid Polymer Electrolyte ๐๏ธ
๐ Journal of Physics: Conference Series
๐ฉโ๐ฌ Authors: Q. Sabrina, A. Sohib, T. Lestariningsih, C.R. Ratri
๐
2019 | Citations: 9
Characterization of Pore and Crystal Structure of Synthesized LiBOB as Lithium-Ion Battery Electrolyte ๐งช
๐ AIP Conference Proceedings
๐ฉโ๐ฌ Authors: T. Lestariningsih, C.R. Ratri, E.M. Wigayati, Q. Sabrina
๐
2016 | Citations: 8
๐น Dr. Qolby Sabrinaโs research significantly contributes to sustainable and high-performance lithium-ion battery materials. Her studies on solid polymer electrolytes, nanofibers, and biopolymer-based solutions have pioneered advancements in battery technology, supporting eco-friendly energy storage solutions ๐โก.