Dr. Zeinab Sanaee | Energy – Associate Professor at University of Tehran, Iran
Dr. Zeinab Sanaee is an accomplished researcher in the field of nanomaterials and electrochemical energy storage systems, known for her outstanding work on lithium-ion batteries, silicon-based anodes, solid-state electrolytes, and supercapacitors. With an h-index of 17 and over 870 citations to her name, she has emerged as a prominent voice in materials science and nanotechnology. Her scholarly contributions reflect a deep commitment to addressing some of today’s most urgent technological challenges, especially in the realm of sustainable energy.
Professional Profile:
🎓Education:
Dr. Sanaee earned her academic credentials from renowned institutions, where she cultivated a strong foundation in semiconductor physics, applied materials science, and energy device engineering. Her educational path has been both rigorous and interdisciplinary, enabling her to approach research problems with a well-rounded perspective. Throughout her academic journey, she has consistently displayed analytical precision, innovation in experimentation, and a clear vision for the future of energy systems.
💼Experience:
Professionally, Dr. Sanaee has served in esteemed academic and research positions, contributing significantly to collaborative projects with multidisciplinary teams. Her collaborations with researchers from Sharif University of Technology, among others, highlight her ability to foster meaningful scientific dialogue and contribute to high-impact studies. She has been involved in both theoretical and applied research, ranging from nanofabrication techniques to the design of advanced electrode materials. Her work not only advances scientific understanding but also has practical applications in flexible electronics, portable energy storage, and next-generation battery systems.
🔬Research Interest:
Dr. Sanaee has directed her focus toward solving real-world problems through fundamental science. Her primary research interests include the development of high-capacity silicon-based anodes, fabrication of solid-state lithium-ion batteries, and investigation into carbon nanostructures for use in flexible supercapacitors. She is especially interested in scalable and low-cost nanomaterial synthesis methods, deep reactive ion etching, and composite material architectures for enhanced energy efficiency.
🏅Award:
Dr. Sanaee has received commendations and recognition in academic circles for her research excellence. While not all her accolades are publicly listed, her scholarly influence is evident from the frequent citations of her work and the prestige of the journals in which she has published. Her contributions are routinely referenced by peers in the field, signaling the high regard for her findings and methodologies.
📚Publications:
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📘 RSC Advances (2017): “A high performance supercapacitor based on decoration of MoS₂/reduced graphene oxide with NiO nanoparticles” – 90 citations
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📗 Journal of Nanoparticle Research (2016): “Flexible micro supercapacitors based on laser-scribed graphene/ZnO nanocomposite” – 43 citations
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📙 Materials Science in Semiconductor Processing (2011): “Controllable silicon nano-grass formation…” – 41 citations
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📕 Carbon (2012): “Vertically aligned multiwall-carbon nanotubes to preferentially entrap cancerous cells” – 39 citations
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📘 Journal of Power Sources (2019): “Microfluidic microbial fuel cell using nickel nanostructure” – 38 citations
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📗 Electrochimica Acta (2019): “Carbon nanotube on reduced graphene oxide paper” – 38 citations
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📙 Journal of Materials Chemistry A (2023): “Solid state Li-metal batteries using LiF/PVDF-HFP” – 30 citations
✅Conclusion:
In conclusion, Dr. Zeinab Sanaee is a forward-thinking, technically proficient researcher whose work continues to influence the global scientific community. Her strong citation metrics, consistent publication record, and focus on sustainability and innovation make her a compelling nominee for the Best Researcher Award. Her research reflects a blend of academic rigor and practical relevance, with each study contributing to the advancement of efficient, scalable, and eco-friendly energy storage technologies. As she continues to explore new frontiers in material design and energy systems, Dr. Sanaee exemplifies the qualities of an impactful and visionary scientist. Her profile, backed by robust academic credentials and a history of significant contributions, aligns perfectly with the values of excellence and innovation celebrated by this prestigious award.