Dr. Vladimir Atanasov | Fuel Cell | Excellence in Research Award
Team Leader at University of Stuttgart | Germany
Dr. Vladimir Milanov Atanasov is a distinguished researcher in polymer and membrane technology with more than 25 years of international experience in the field of chemical and polymer engineering. He currently serves as Team Leader for Polymer and Membrane Technology at the Institute of Chemical Process Engineering, University of Stuttgart. Born and educated in Bulgaria, he earned his M.Sc. in Organic and Analytical Chemistry from Sofia State University, followed by a Ph.D. under the supervision of Prof. Müllen at the Max Planck Institute for Polymer Research, Mainz. Dr. Atanasov has held several prestigious postdoctoral appointments, including at the MPI for Polymer Research, MPI for Solid State Research, and the University of Stuttgart, where his work focused on fuel cell and biomembrane applications. His expertise spans polymer electrolyte membrane (PEM) preparation, advanced polymerization techniques, post-modification methods, and organic synthesis, particularly in phosphonated and sulfonated fluoro-arylenes and functionalized lipids. He is skilled in a wide range of characterization techniques, including EIS, DMA, NMR, MALDI-ToF, GPC, DSC, and FTIR. Dr. Atanasov has authored 33 scientific documents, including 35 peer-reviewed papers, and holds three patents. His contributions have been cited over 1,181 times, and his current Scopus profile reflects an h-index of 16. His ongoing research focuses on the development and characterization of novel polymer electrolyte membranes for high-temperature proton exchange membrane fuel cells (HT-PEMFC), combining innovative materials and advanced film-forming techniques to enhance efficiency and durability in energy applications.
Feautured Publications
Atanasov, V., Knorr, N., Duran, R. S., Ingebrandt, S., Offenhäusser, A., & Knoll, W. (2005). Membrane on a chip: A functional tethered lipid bilayer membrane on silicon oxide surfaces. Biophysical Journal, 89(3), 1780–1788. Cited by: 250
Schuster, M., de Araujo, C. C., Atanasov, V., Andersen, H. T., Kreuer, K. D., & Maier, J. (2009). Highly sulfonated poly (phenylene sulfone): Preparation and stability issues. Macromolecules, 42(8), 3129–3137. Cited by: 204
Atanasov, V., Lee, A. S., Park, E. J., Maurya, S., Baca, E. D., Fujimoto, C., Hibbs, M., & others. (2021). Synergistically integrated phosphonated poly (pentafluorostyrene) for fuel cells. Nature Materials, 20(3), 370–377. Cited by: 198
Lim, K. H., Lee, A. S., Atanasov, V., Kerres, J., Park, E. J., Adhikari, S., Maurya, S., & others. (2022). Protonated phosphonic acid electrodes for high power heavy-duty vehicle fuel cells. Nature Energy, 7(3), 248–259. Cited by: 162
Atanasov, V., Atanasova, P. P., Vockenroth, I. K., Knorr, N., & Köper, I. (2006). A molecular toolkit for highly insulating tethered bilayer lipid membranes on various substrates. Bioconjugate Chemistry, 17(3), 631–637. Cited by: 94
Atanasov, V., & Kerres, J. (2011). Highly phosphonated polypentafluorostyrene. Macromolecules, 44(16), 6416–6423. Cited by: 93