Seyed Ali Hoseini | Lithium Ion Battery| Best Researcher Award

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Mr. Seyed Ali Hoseini | Lithium Ion Battery | Best Researcher Award

Author at  University of Tehran, Iran

Seyed Ali Hoseini is a doctoral candidate at the University of Tehran, specializing in nanotechnology engineering with a focus on nanoelectronics. He is a passionate researcher in the areas of lithium-ion batteries, conductive scaffolds, and high-k materials. Ali has contributed to several publications and is dedicated to advancing energy storage technologies. He holds top academic distinctions, having been ranked first in both his bachelor’s and master’s degrees. He is an active member of the Nano-fabricated Energy Devices Lab, where he works on improving battery and supercapacitor performance. His expertise in nanomaterials, electrochemistry, and simulation modeling is reflected in his work on advanced materials for energy devices.

Publication Profile

scholar

Education 🎓

Ali Hoseini is pursuing a Ph.D. in Nanotechnology Engineering (Nanoelectronics) at the University of Tehran since 2020. He holds a master’s degree from Hakim Sabzevari University, where he ranked first in his class. His thesis focused on the design and simulation of pentacene-based field-effect transistors for bacteria detection. He completed his bachelor’s degree at Shahid Sattari Aeronautical University of Science, where he again ranked first. His academic excellence is reflected in a high GPA of 18.62/20 for his master’s and 18.86/20 for his bachelor’s.

Experience 🔬

Seyed Ali Hoseini’s research experience spans several roles, primarily as a Research Assistant at the Nano-fabricated Energy Devices Lab at the University of Tehran. He focuses on material synthesis for lithium-ion batteries and has hands-on experience with electrode slurry preparation, cell assembly, and electrochemical testing. Ali has also worked on COMSOL simulation and modeling, as well as semiconductor simulations using Silvaco. He is proficient in thin-film fabrication techniques, including chemical vapor deposition and sputtering. His work extends to electrochemical characterization techniques like CV, GCD, and EIS.⚙️🧪

Awards and Honors🏆

Ali Hoseini has consistently excelled academically, achieving first place in both his bachelor’s and master’s degrees. His research contributions have led to multiple publications in high-impact journals. He has also received recognition for his innovative work in nanotechnology and energy storage. His outstanding academic and research achievements have earned him various awards, including a prestigious research assistantship at the University of Tehran.

Research Focus🔬

Seyed Ali Hoseini’s research focuses on improving the performance of lithium-ion batteries and supercapacitors using nanostructured scaffolds and high-k materials. His work aims to enhance the efficiency of energy storage devices by optimizing electrode materials and structural designs. He also investigates electrochemical processes to improve the durability and cycle life of batteries. His expertise extends to simulation and modeling, material synthesis, and electrochemical testing. Ali is committed to advancing sustainable energy storage solutions through cutting-edge nanotechnology. 🔋

Publication  Top Notes

 

Design and Optimization of a CMOS Power Amplifier Using Innovative Fractional-Order Particle Swarm Optimization

Authors: S.A. Hosseini, A. Hajipour, H. Tavakoli

JournalApplied Soft Computing, 85, 105831 (2019)

Summary: This study focuses on the design and optimization of a CMOS power amplifier using fractional-order particle swarm optimization, an advanced optimization technique applied to improve amplifier performance. ⚡🔧

Lithium Demand and Cyclability Trade‐Off in Conductive Nanostructure Scaffolds in Terms of Different Tortuosity Parameters

Authors: S. Ali Hoseini, S. Mohajerzadeh, Z. Sanaee

JournalChemElectroChem, e202400428 (2024)

Summary: This research explores the relationship between lithium demand and cyclability in conductive nanostructure scaffolds, focusing on how various tortuosity parameters affect performance in energy storage devices like lithium-ion batteries. 🔋🧪

طراحی و شبیه سازی زیست حسگر تشخیص باکتری ایشرشیا کولی با استفاده از ترانزیستور اثر میدان ارگانیک بر روی نیم رسانای پنتاسین‎

Authors: سیدعلی حسینی, محمدهادی شاهرخ آبادی

Journalمهندسی برق (دانشکده فنی دانشگاه تبریز), 50, 669-678 (2020)

Summary: This paper discusses the design and simulation of a biosensor for detecting Escherichia coli bacteria using an organic field-effect transistor based on pentacene semiconductor material. 🦠

Conclusion

Seyed Ali Hoseini is an outstanding candidate for the Best Researcher Award, with a robust track record in innovative research in nanotechnology, energy storage, and electrochemical systems. His exceptional academic performance, cutting-edge contributions to lithium-ion battery technology, and interdisciplinary research skills make him a standout figure in his field. While there are areas for potential improvement, particularly in global collaborations and commercialization efforts, his research promises to drive forward both technological advancements and sustainable solutions in energy storage. Thus, he is highly deserving of recognition as a leading researcher in the field of energy and nanotechnology.

Qolby Sabrina | Material science | Best Researcher Award

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Mrs. Qolby Sabrina | Material science | Best Researcher Award

Junior Researcher at National Research and Innovation Agency, Indonesia

[Name] is a dedicated researcher specializing in solid polymer electrolytes and biopolymer materials for energy applications. With a strong foundation in physics, they earned a Master’s degree from the University of Indonesia and are currently pursuing doctoral studies at Osaka University under the prestigious JSPS RONPAKU fellowship. They have contributed significantly to material science, particularly in lithium-ion battery research, through their work at Indonesia’s leading research institutions, including the National Research and Innovation Agency (BRIN). Their academic and professional journey exemplifies commitment to advancing sustainable energy solutions.

Publication Profile

scholar

Education🎓

Bachelor’s in Physics from State Islamic University Syarif Hidayatullah, Indonesia, in July 2011.  Master’s in Physics from the University of Indonesia in June 2014, where they deepened their knowledge of material sciences. Currently pursuing a Ph.D. in Material Science at Osaka University, Japan, from 2022 onward, focusing on advanced research in energy materials.  Selected as a RONPAKU Fellow by the Japan Society for the Promotion of Science (JSPS) in 2021, enhancing their research exposure and international collaboration skills. 🧬

Experience🔬 

Researcher at the Indonesian Institute of Sciences (LIPI) from 2015 to 2022, leading projects on advanced materials and energy applications. Since 2022, Researcher at the National Research and Innovation Agency (BRIN), focusing on the development of solid polymer electrolytes for energy storage solutions. Based in Tangerang Selatan, Indonesia, they work within BRIN’s advanced materials research hub, collaborating on cutting-edge innovations in sustainable energy. 🏛

Awards and Honors🏅 

JSPS RONPAKU Fellowship (2021) awarded by the Japan Society for the Promotion of Science, facilitating dissertation-based Ph.D. research.  Recognition from the Indonesian Institute of Sciences for contributions to material science research in Indonesia.  Honored for innovation and commitment to sustainable energy research through advanced material development at BRIN.  Contributed to multiple research publications and projects that aim to solve pressing energy storage challenges. 🎖

Research Focus🔋

Solid polymer electrolytes tailored for high-efficiency lithium-ion battery applications, addressing energy storage challenges. Exploration of biopolymer membranes for eco-friendly energy materials, aligning with sustainability goals in energy sectors.  Research includes advanced characterization and synthesis of materials for improved battery performance and durability. Dedicated to enhancing battery technology and sustainable material applications to support green energy transitions. 🌱

Publication  Top Notes

“Preparation and characterization of nanofibrous cellulose as solid polymer electrolyte for lithium-ion battery applications”
Q Sabrina, CR Ratri, A Hardiansyah, T Lestariningsih, A Subhan, A Rifai, …

Published in RSC Advances, 2021 (Vol. 11, Issue 37), pp. 22929-22936

Citations: 26

Summary: This study explores the development of nanofibrous cellulose-based solid polymer electrolytes for improved lithium-ion battery performance.

“Karakteristik Morfologi Permukaan Pada Polimer PVdF-LiBOB-ZrO2 dan Potensinya untuk Elektrolit Baterai Litium”
EM Wigayati, I Purawiardi, Q Sabrina

Published in Jurnal Kimia dan Kemasan, 2018 (Vol. 40, Issue 1), pp. 1-8

Citations: 13

Summary: Research focuses on the surface morphology characteristics of PVdF-LiBOB-ZrO2 polymers, highlighting their potential in lithium-ion battery electrolytes.

“Penambahan TiO2 dalam Pembuatan Lembaran Polimer Elektrolit Berpengaruh Terhadap Konduktivitas dan Kinerja Baterai Lithium”
T Lestariningsih, Q Sabrina, N Majid

Published in J. Mater. dan Energi Indones, 2017 (Vol. 7, Issue 1), pp. 31-37

Citations: 12

Summary: This study evaluates the impact of TiO₂ addition on the conductivity and performance of lithium battery polymer electrolytes.

“Structure, thermal and electrical properties of PVDF-HFP/LiBOB solid polymer electrolyte”
T Lestariningsih, Q Sabrina, CR Ratri, I Nuroniah

Published in Journal of Physics: Conference Series, 2019 (Vol. 1191, Issue 1), 012026

Citations: 9

Summary: This paper examines the structural, thermal, and electrical properties of PVDF-HFP/LiBOB solid polymer electrolytes for energy applications.

“The effect of (TiO2 and SiO2) nano-filler on solid polymer electrolyte based LiBOB”
Q Sabrina, A Sohib, T Lestariningsih, CR Ratri

Published in Journal of Physics: Conference Series, 2019 (Vol. 1191, Issue 1), 012028

Citations: 8

Summary: Analyzes the effects of TiO₂ and SiO₂ nano-fillers on the performance of LiBOB-based solid polymer electrolytes.

“Characterization of pore and crystal structure of synthesized LiBOB with varying quality of raw materials as electrolyte for lithium-ion battery”
T Lestariningsih, CR Ratri, EM Wigayati, Q Sabrina

Published in AIP Conference Proceedings, 2016 (Vol. 1711, Issue 1)

Citations: 8

Summary: Investigates the pore and crystal structures of LiBOB synthesized using different quality raw materials for lithium-ion battery applications.

“Study the synthesis of LiBOB compounds using lithium sources from sea water”
T Lestariningsih, Q Sabrina, I Nuroniah, B Prihandoko, E Marti Wigayati, …

Published in Journal of Physics: Conference Series, 2019 (Vol. 1282, Issue 1), 012044

Citations: 7

Summary: Research on synthesizing LiBOB from lithium sources extracted from seawater for use in battery electrolytes.

“Fabrication of solid polymer electrolyte based on carboxymethyl cellulose complexed with lithium acetate salt as Lithium‐ion battery separator”
DA Darmawan, E Yulianti, Q Sabrina, K Ishida, AW Sakti, H Nakai, …

Published in Polymer Composites, 2024 (Vol. 45, Issue 3), pp. 2032-2049

Citations: 6

Summary: This paper describes the fabrication of carboxymethyl cellulose-based solid polymer electrolytes, enhancing lithium-ion battery separators.

“Brine water as lithium source in the synthesis of LiBOB electrolyte for lithium-ion battery application”
T Lestariningsih, Q Sabrina, CR Ratri, LH Lalasari

Published in AIP Conference Proceedings, 2021 (Vol. 2382, Issue 1)

Citations: 6

Summary: Utilizes brine water as a lithium source in the synthesis of LiBOB electrolytes for lithium-ion batteries.

“Compositional effect investigation by addition PEG, PEO plasticiser of LiBOB based solid polymer electrolyte for lithium ion batteries”
Q Sabrina, CR Ratri

Published in AIP Conference Proceedings, 2017 (Vol. 1868, Issue 1)

Citations: 6

Summary: Studies the impact of adding PEG and PEO plasticizers on the conductivity of LiBOB-based solid polymer electrolytes for battery applications.

Conclusion

This candidate stands out as a compelling nominee for the Best Researcher Award. Their dedication to advancing materials science, particularly in sustainable energy applications, paired with international recognition through the RONPAKU fellowship, showcases their high potential and dedication. With continued focus on high-impact publishing and community involvement, they are likely to make substantial contributions to the field, making them an excellent candidate for this award.