Mr. Mohammad Ali Nasiri ,university of valencia -Instituto de Ciencia Molecular (ICMOL), Spain
Mohammad Ali Nasiri, based in Valencia, Spain, is an innovative researcher specializing in thermoelectric materials, energy storage, and sustainable solutions. With over five years of experience at the Instituto de Ciencia Molecular (ICMOL), he has made significant advancements in energy storage technologies and sustainable thermoelectric materials. Nasiri has expertise in micro/nanofabrication and extensive characterization techniques, including electron beam evaporation, thermal evaporation, and Raman spectroscopy. His notable publications include works on ultrathin transparent nickel electrodes and lignin-derived ionic conducting membranes. Nasiri holds a Master of Science in Nanotechnology from the Materials and Energy Research Center, Iran, and a Master of Science in Mechanical Engineering from Tarbiat Modares University, Iran. He is currently pursuing research in Nanoscience and Nanotechnology at the University of Valencia, focusing on thermoelectric materials. Nasiri’s work has been guided by esteemed research advisors Andres Cantarero and Clara Gomez.
Professional Profile:
ORCID
Education:
- Researcher in Nanoscience and Nanotechnology, University of Valencia (March 2019 – Present)
- Master of Science in Nanotechnology – Nanomaterials, Materials and Energy Research Center, Tehran, Iran (September 2014 – 2017)
- Master of Science in Mechanical Engineering, Tarbiat Modares University, Tehran, Iran (November 2006 – 2009)
Languages:
- English (B1), Persian (Native) 🗣️📚
Research Interests:
- Hydrogel bioelectronics
- Thermal conductivity on flakes
- Ionic thermometric materials 🌊🌡️
Professional Experience:
- Researcher Assistant at Instituto de Ciencia Molecular (ICMOL) (March 2019 – Present)
- Developed sensors for 3ω method thermal conductivity characterization.
- Created lignin-based MWCNT/MXene multilayered electrodes for energy storage.
- Pioneered sustainable innovations in thermoelectric materials, including lignin-derived ionic conducting membranes and hydrogels.
- Advanced techniques in transparent thermoelectric materials, including ultrathin transparent nickel electrodes and selective light absorbers. 🌞🧪
Skills:
- Cleanroom Class 10000: Expert in micro and nanofabrication techniques such as electron beam evaporation, thermal evaporation, sputtering, ellipsometry, dry etching, and wire bonding. 🏭🔧
- Characterization Techniques: Proficient in thermoelectric and thermal conductivity measurements, Hall effect, Raman, FTIR, UV-Vis, XPS, Kerr electro-optic effect, and SThM. 📊🔍
- Mathematical Modeling and Problem Solving: Specializes in ionic thermoelectric materials and metamaterials using finite element method (FEM) and perturbation method. 📐🧩
Publication top Notes:
Highly-efficient sustainable ionic thermoelectric materials using lignin-derived hydrogels
Synthesis of PEDOT/CNTs Thermoelectric Thin Films with a High Power Factor
Lignin‐Derived Ionic Conducting Membranes for Low‐Grade Thermal Energy Harvesting
Ultrathin Transparent Nickel Electrodes for Thermoelectric Applications
Textile‐based Thermoelectric Generator Produced Via Electrochemical Polymerization
Elevated temperature annealed α-Fe<inf>2</inf>O<inf>3</inf>/reduced graphene oxide nanocomposite photoanode for photoelectrochemical water oxidation