Prof. Dr Alexandra Kuriganova, Platov South-Russian State Polytechnic University, Russia
Prof. Dr. Alexandra Kuriganova is a distinguished researcher in electrochemical nanomaterials, specializing in fuel cells, supercapacitors, and lithium-ion batteries π¬β‘. She earned her Diplom (2008) and Ph.D. (2011) from South Russian State Technical University, focusing on nanosized Pt/C catalysts for proton exchange membrane fuel cells (PEMFC) π₯π. Her international research collaborations span Germany π©πͺ, France π«π·, and Russia π·πΊ, leading to innovative breakthroughs in catalyst development. Currently an Associate Professor and Senior Research Fellow at Platov South Russian State Polytechnic University, she has made significant contributions to nanodispersed metal oxides for energy applications ππ. Her work in pulse electrolysis and electrochemical dispersion techniques has redefined electrocatalyst synthesis, resulting in numerous high-impact publications π. A dedicated scientist and educator, she continues to advance nanotechnology for sustainable energy solutions, collaborating with leading institutions worldwide π±π‘.
Publication Profile
Scopus
Education
Prof. Dr. Alexandra Kuriganova earned a Diplom (2008) in Chemical Technology of High-Molecular Compositions from South Russian State Technical University (Novocherkassk Polytechnic Institute), Novocherkassk. He continued his studies at the same institution, obtaining a Ph.D. (2011) in Technology of Electrochemical Processes and Corrosion Protection. His thesis, titled “Electrochemical Preparation of Nanosized Pt/C Catalysts for Fuel Cells with Proton Exchange Polymer Membrane,” was supervised by Prof. Dr. Nina V. Smirnova. Dr. [Name] has participated in prestigious international research fellowships, including the Institute of Problems of Chemical Physics (2011), TU Dresden (DAAD Scholarship, 2012), the European Synchrotron Radiation Facility (2012), and NUST βMISISβ (2013) . ππ¬
Experience
Prof. Dr. Alexandra Kuriganova is a distinguished researcher in electrochemical materials and nanotechnology. She began her academic career as an Assistant Professor at South Russian State Technical University (2008-2013) π, where she conducted research and taught chemical engineering courses. Since 2013, she has been an Associate Professor at Platov South Russian State Polytechnic University ποΈ, leading academic and research initiatives. As a Senior Research Fellow at the Research Institute of Nanotechnologies & Novel Materials (2014-Present) π§ͺ, she spearheads advancements in nanomaterials for energy storage and catalysis. Her international collaborations include studies on diesel oxidation catalysts π, Li-ion battery anodes π, Pt nanocrystal compressibility ποΈ, and nanoparticle growth π¬.
Research Interest
Prof. Dr. Alexandra Kuriganova specializes in nanodispersed metal and metal oxide materials for electrochemical applications β‘π¬, including proton exchange membrane fuel cells (PEMFCs), supercapacitors, and Li-ion batteries. Her research explores electrochemical oxidation and dispersion for nanoparticle synthesis. Collaborating with top institutions worldwide π, she has worked on Pt/C catalysts for PEMFCs, Pt/Ξ³βAlβOβ diesel oxidation catalysts, and SnOβ nanoparticles for Li-ion batteries. She has partnered with scientists from Russia π·πΊ, Germany π©πͺ, France π«π·, and beyond, leading to impactful joint publications π. Her work advances energy storage and catalysis, driving innovation in electrochemical technologies. ππ
Research Focus
Prof. Dr. Alexandra Kuriganovaβs research focuses on the synthesis and application of nanodispersed metals and metal oxides for electrochemical energy storage and catalysis β‘π. She has significantly contributed to fuel cell technology by developing high-performance Pt/C catalysts for proton exchange membrane fuel cells (PEMFCs) π. Her work in supercapacitors and batteries includes tin oxide-based anodes for Li-ion batteries and electrocatalytic materials for energy storage β‘π. She pioneers pulse electrolysis techniques for synthesizing bimetallic electrocatalysts using electrochemical dispersion π―. Additionally, her studies on Pt/Ξ³βAlβOβ catalysts for diesel oxidation involve collaborations with global research institutions π. Her interdisciplinary expertise in electrochemistry, nanotechnology, and materials science has led to groundbreaking discoveries and high-impact publications π.
Publication Top Notes
1οΈβ£ New Insights into Controlling the Functional Properties of Tin Oxide-Based Materials π§ͺ
2οΈβ£ Theoretical and Technological Fundamentals of Pulse Electrolysis for Electro- & Catalytically Active Materials β‘
3οΈβ£ Electrochemistry of Pt and Pd Under Pulse Electrolysis Conditions ποΈ
4οΈβ£ Pt Catalysts Prepared via Top-down Electrochemical Approach: Synthesis & Support Effects π¬
5οΈβ£ Tungsten Oxide Nanopowders: Pulse AC Electrosynthesis & Photocatalytic Performance π‘
6οΈβ£ Fabrication of Nano-InβOβ Phase Junction for Enhanced Photoelectrochemical Performance π±
7οΈβ£ Pulse Electrolysis Technique for Preparation of Bimetal Tin-Containing Electrocatalytic Materials βοΈ
8οΈβ£ Investigation of Ambient Temperature Influence on PEMFC Characteristics: From Single Cell to Stack π
9οΈβ£ Electrochemical Dispersion Technique for Sn-Doped Pt Particles as Electrocatalysts π
π Comparison of Bottom-Up & Top-Down Approaches to Pt/C Electrocatalyst Synthesis π