Doctorate at Illinois Tech, United States
Profile:
π Current Position
Maziar Ashuri is currently serving as an EV Battery System R&D Senior Engineer at Hyundai America Technical Center, Inc. (HATCI). Since July 2024, he has been driving advancements in battery technologies for electric vehicles (EVs). His role encompasses compatibility analysis between EV models and charging networks, feasibility studies on next-generation battery systems, and evaluations of innovative materials to enhance energy density, thermal management, and safety. He also explores novel adhesive sealants for battery packs, optimizing durability and insulation. Maziar plays a pivotal role in supporting Hyundaiβs North American EV plant by verifying localized production components.
π Publication Achievements
Maziar has an impressive publication record that reflects his expertise in advanced materials and energy technologies. He has contributed significantly to developing high-performance silicon anodes and surface-modified NMC cathodes for lithium-ion batteries. His work emphasizes optimizing materials for improved safety and efficiency in energy storage systems.
π¬ Ongoing Research
Advancing lithium-ion and metal-ion battery technologies for EVs and industrial applications. Exploring new materials for energy storage systems with enhanced thermal stability and safety. Developing cutting-edge solutions for sustainable energy storage and material recycling. Through extensive lab tests and real-world evaluations, Maziar continues to push boundaries in battery system performance.
π Research Interests
Advanced materials for energy storage and conversion systems. Failure analysis techniques for improving battery system safety. Sustainable and recyclable materials for green energy solutions. Cross-disciplinary approaches to enhance the performance and safety of energy storage technologies.
π Academic Background
Maziar holds a Ph.D. in Materials Science & Engineering from the Illinois Institute of Technology, where his dissertation focused on silicon anodes and modified cathodes for lithium-ion batteries.Β
- An M.S. in Biomedical Engineering (Biomaterials) from Amirkabir University of Technology, studying bioactive glass composites.
- A B.S. in Metallurgical Engineering (Extractive Metallurgy) from the University of Tehran, focusing on aluminum-zircon composites via powder metallurgy.
π Scholarships and Awards
Maziarβs academic journey has been marked by numerous recognitions for his innovative contributions in materials science. His expertise in energy storage has earned him accolades in both research and industry sectors.
𧬠Bioinformatics Expertise
While his primary domain lies in materials science, Maziarβs cross-disciplinary approach includes utilizing computational tools to model material behaviors and optimize system performance.
π Professional Associations
Maziar is an active member of professional organizations that advance materials science and energy storage technologies. His memberships enable him to collaborate with global experts and stay updated with industry trends.
π Training & Workshops
Maziar has participated in various workshops focusing on analytical techniques such as SEM, XRD, TGA, DSC, CV, and EIS. These methods have been integral to his work in enhancing energy storage systems and materials.
π£οΈ Oral Presentations
Maziar has delivered numerous presentations at international conferences, Innovations in lithium-ion battery systems. Failure analysis methods to improve energy storage safety. Strategies for advancing sustainable energy technologies.
π§ Tasks Completed as a Researcher
Throughout his career, Maziar has accomplished significant tasks, Synthesizing high-performance materials for energy storage. Conducting failure diagnostics to improve battery safety. Implementing advanced testing protocols for material optimization. Mentoring students and professionals in laboratory techniques.
π
Success Factors
- Deep knowledge of advanced materials and energy systems.
- Proficiency in analytical techniques and hands-on testing.
- Collaborative mindset, driving innovation through teamwork.
- Dedication to sustainability and green technologies.
π Publications & Laboratory Experience
Maziarβs laboratory experience includes synthesizing and analyzing materials using cutting-edge methods. His publications focus on enhancing battery performance and exploring sustainable solutions for energy storage. His expertise spans academic research and industrial applications, bridging the gap between innovation and implementation.
π A Visionary for a Sustainable Future
With a career rooted in innovation, Maziar Ashuri exemplifies the transformative power of advanced materials and energy storage systems. His contributions to electric vehicle technologies and sustainable solutions continue to pave the way for a greener, more efficient future.
πPublications:
Paper Title: Engineering LiBH4-Based Materials for Advanced Hydrogen Storage: A Critical Review of Catalysis, Nanoconfinement, and Composite Design
- Authors: Y Xu, Y Zhou, Y Li, M Ashuri, Z Ding
- Journal: Molecules
- Year: 2024
Paper Title: On the Electrochemical Properties of Carbon-Coated NaCrO2 for Na-Ion Batteries
- Authors: Z Shi, Z Wang, LL Shaw, M Ashuri
- Journal: Batteries
- Year: 2023
Paper Title: Silicon as a potential anode material for Li-ion batteries: where size, geometry and structure matter
- Authors: M Ashuri, Q He, LL Shaw
- Journal: Nanoscale
- Year: 2015
Paper Title: Improvement in physical and mechanical properties of aluminum/zircon composites fabricated by powder metallurgy method
- Authors: H Abdizadeh, M Ashuri, P Tavakoli Moghadam, A Nouribahadory
- Journal: Materials & Design
- Year: 2011
Paper Title: Li2S encapsulated by nitrogen-doped carbon for lithium sulfur batteries
- Authors: L Chen, Y Liu, M Ashuri, C Liu, LL Shaw
- Journal: Journal of Materials Chemistry A
- Year: 2014