Publications

25. K. A. Randall, M. E. Enderlin, and P. Flouda*, ‘Architectural engineering of nanocomposite electrodes for energy storage’, MRS Communications (2024).

  • Special issue: Early Career Materials Researcher Prospective
  1. 24. P. Flouda, A. Inman, M. Gumenna, D. Bukharina, V. V. Shevchenko, Y. Gogotsi, and V. V. Tsukruk, ‘Ultrathin Films of MXene Nanosheets Decorated by Ionic Branched Nanoparticles with Enhanced Energy Storage Stability’, ACS Applied Materials & Interfaces 15, 46, 53776–53785 (2023).

23. P. Flouda, J. Choi, M. L. Buxton, D. Nepal, Z. Lin, T. J. Bunning, and V. V. Tsukruk, ‘Synthesis and Assembly of Two-dimensional Heterostructured Architectures’, MRS Communications 13, 674-684 (2023).

  • Special issue: MRS 50th anniversary issue
  • Selected for part of the journal cover

22. M. Kim, M. J. Han, H. Lee, P. Flouda, D. Bukharina, K. J. Pierce, K. M. Adstedt, M. L. Buxton, Y. Yoon, W. T. Heller, S. Singamaneni, V. V. Tsukruk, ‘Bio-Templated Chiral Zeolitic Imidazolate Framework for Enantioselective Chemoresistive Sensing’, Angewandte Chemie Int. Ed. e202305646 (2023).

21. D. Loufakis,§ P. Flouda,§ S. Oka, J. Pompo, D. C. Lagoudas, and J. L. Lutkenhaus, ‘Mechanically Improved Zn-Ion Batteries Based on Branched Aramid Nanofibers’, Journal of Physical Chemistry C 26, 48, 20293–20301 (2022). (§Denotes equal contribution)

  • Special issue: Esther Sans Takeuchi Festschrift

20. P. Flouda, A. V. Stryutsky, M. Buxton, K Adstedt, D. Bukharina, V. V. Shevchenko, and V. V. Tsukruk, ‘Reconfiguration of Langmuir Monolayers of Thermo-Responsive Branched Ionic Polymers with LCST Transition’, Langmuir 38, 39, 12070–12081 (2022).

19. P. Flouda, D. Bukharina, K. J. Pierce, A. V. Stryutsky, V. V. Shevchenko, and V. V. Tsukruk, ‘Flexible Sustained Ionogels with Ionic Hyperbranched Polymers for Enhanced Ion-Conduction and Energy Storage’, ACS Applied Materials & Interfaces 14, 23, 27028–27039 (2022).

18. K. Sarang, X. Zhao, D. Holta, H. Cao, K. Arole, P. Flouda, E-S. Oh, M. Radovic, M. J. Green, and J. L. Lutkenhaus, ‘Carbon additive-free Crumpled Ti3C2Tx MXene-encapsulated Silicon Nanoparticle Anodes for Lithium-ion Batteries’, ACS Applied Energy Materials 4, 10, 10762–10773 (2021).

17. P. Flouda, S. Oka, D. Loufakis, D. C. Lagoudas, and J. L. Lutkenhaus, ‘Structural Lithium-ion Battery Cathodes and Anodes Based on Kevlar Aramid Nanofibers’, ACS Applied Materials & Interfaces 13, 29, 34807–34817 (2021).

16. S. Aderyani, P. Flouda, S. A. Shah, M. J. Green, J. L. Lutkenhaus, and H. Ardebili, ‘Simulation of Cyclic Voltammetry in Structural Supercapacitors with Pseudocapacitance Behavior’, Electrochimica Acta 390, 138822 (2021).

15. T. Ma, A. Easley, S. Wang, P. Flouda, and J. L. Lutkenhaus, ‘Mixed Electron-Ion-Water Transfer in the Redox Mechanism of Macromolecular Radicals for Metal-Free Aqueous Batteries’, Cell Reports Physical Science 2, 5, 100414 (2021).

14. J. Yun, I. Echols, P. Flouda, Y. Chen, S. Wang, X. Zhao, D. Holta, M. Radovic, M. Green, M. Naraghi, and J. Lutkenhaus, ‘Layer-by-Layer Assembly of Reduced Graphene Oxide and MXene Nanosheets for Wire-Shaped Flexible Supercapacitors’, ACS Applied Materials & Interfaces 13, 12, 14068–14076 (2021).

13. A. G. Patel, D. Loufakis, P. Flouda, I. George, C. Shelton, J. Harris, S. Oka, and J. L. Lutkenhaus, ‘Carbon Nanotube/Reduced Graphene Oxide/Aramid Nanofiber Structural Supercapacitors’, ACS Applied Energy Materials 3, 12, 11763–11771 (2020).

12. A. Easley, L. Vukin, P. Flouda, D. Howard, J. Pena, and J. Lutkenhaus ‘Nitroxide Radical Polymer-Solvent Interactions and Solubility Parameter Determination’, Macromolecules 53 (18), 7997–8008 (2020).

11. J. L. Lutkenhaus and P. Flouda, ‘Structural Batteries Take a Load Off’, Science Robotics 5, 45 (2020).

10. P. Flouda, A. H. Quinn, A. G. Patel, D. Loufakis, D. C. Lagoudas, and J. L. Lutkenhaus, ‘Branched Aramid Nanofiber-Polyaniline Electrodes for Structural Energy Storage’, Nanoscale 12, 16840-16850 (2020). 

9. J. L. Lutkenhaus and P. Flouda, ‘Ceramic Electrolytes Get “Tough” on Lithium Metal Batteries’, Matter 3, 1, 14 – 15 (2020).

8. P. Flouda, J. Yun, D. Loufakis, S. A. Shah, M. J. Green, D. C. Lagoudas, and J. L. Lutkenhaus, ‘Structural Reduced Graphene Oxide Supercapacitors Mechanically Enhanced with Tannic Acid’, Sustainable Energy & Fuels 4, 5, 2301-2308 (2020).

7. S. Wang, A. M. G. Park, P. Flouda, A. D. Easley, F. Li, T. Ma, G. D. Fuchs, and J. L. Lutkenhaus, ‘Solution-Processable Thermally Crosslinked Organic Radical Polymer Battery Cathodes’, ChemSusChem 13, 9, 2371-2378 (2020).

6. J. Yun, I. Echols, P. Flouda, S. Wang, A. Easley, X. Zhao, Z. Tan, E. Prehn, G. Zi, M. Radovic, M. Green, and J. Lutkenhaus, ‘Layer-by-layer Assembly of Polyaniline Nanofiber and MXene Thin Film Electrodes for Electrochemical Energy Storage’, ACS Applied Materials & Interfaces 11, 51, 47929-47938 (2019).

5. P. Flouda, S. Shah, D. C. Lagoudas, M. J. Green, and J. L. Lutkenhaus, ‘Highly Multifunctional Dopamine Functionalized Reduced Graphene Oxide Structural Supercapacitors’, Matter 1, 1532–1546 (2019).

4. S. Aderyani, P. Flouda, J. L. Lutkenhaus, and H. Ardebili, ‘Architecture Influenced Ionic Diffusion in rGO/Aramid Nanofiber Structural Electrodes for Supercapacitors’, Journal of Applied Physics 125, 185106 (2019).

3. P. Flouda, X. Feng, J. G. Boyd, E. L. Thomas, D. C. Lagoudas, and J. L. Lutkenhaus, Interfacial Engineering by Functionalization of Reduced Graphene Oxide for Aramid Nanofiber-Enabled Structural Supercapacitors’, Battereries & Supercaps 2, 5, 464-472 (2019).

  • Selected for the journal cover page

2. S. De, C Purcell, J. Murley, P. Flouda, S. Shah, M. J. Green, and J. L. Lutkenhaus, ‘Spray-on Reduced Graphene Oxide-Poly(vinyl alcohol) Supercapacitors for Flexible Energy and Power’, Advanced Materials Interfaces 5, 1801237 (2018).

1. C. Benedetti, P. Flouda,A. Antonello, C. Rosenauer, F. Pérez-Pla, K. Landfester, S. Gross,and R. Muñoz-Espí, ‘Zirconium Oxocluster/Polymer Hybrid Nanoparticles Prepared by Photoactivated Miniemulsion Copolymerization’, Nanotechnology 28, 365603 (2017).