google_scholar_iconProf. Gostick’s Google Scholar Profile



37. Sadeghi, A., M. Aghighi, J. Barralet, and J. Gostick, Pore network modeling of reaction-diffusion in hierarchical porous particles: the effects of microstructure.  The Chemical Engineering Journal. 330(Dec) 1002-1011 (2017). (Link)

36. Liu, S., M. Kok, Y. Kim, J.L. Barton, F.R. Brushett, and J. Gostick, Evaluation of electrospun fibrous mats targeted for use as flow battery electrodes.  Journal of the Electrochemical Society. 164(9), A2038-A2048 (2017). (Link)

35. Gostick, J., A Versatile and Efficient Pore Network Extraction Method Using Marker-Based Watershed Segmentation.  Physical Review E. 96(2), 023307 (2017). (Link)  The supplemental information can be downloaded here.

34. Hinebaugh, J., J. Gostick, A. Bazylak, Stochastic modeling of polymer electrolyte membrane fuel cell gas diffusion layers – Part 2: A comprehensive substrate model with pore size distribution and heterogeneity effects.  International Journal of Hydrogen Energy. 42(24), 15872–15886 (2017).  (Link)

33. Tranter, T.G., P. Stogornyuk, J.T. Gostick, A.D. Burns, W.F. Gale, A method for measuring relative in-plane diffusivity of thin and partially saturated porous media: An application to fuel cell gas diffusion layers.  International Journal of Heat and Mass Transfer. 110(July), 132–141 (2017).  (Link)

32. Lopes, J., F.-X. Colson, S. Ye, J.T. Gostick, J.E. Barralet, G. Merle, Graphene modified nanosized Ag electrocomposites.  Materials Research Bulletin. 89(May), 42–50 (2017).  (Link)


31. Rashapov, R., and J. Gostick, In-plane Effective Diffusivity in PEMFC Gas Diffusion Layers. Transport in Porous Media. 115(3), p411-433. (Link)

30. Zhang Z, Lopes JH, Ye S, Gostick JT, Barralet JE, and Merle G, Electrically Bloomed Platinum Nanoflowers on Exfoliated Graphene: An Efficient Alcohol Oxidation Catalyst.  Journal of the Electrochemical Society. 163(10), D615-D621.  (Link)

29. Tranter, T., J. Gostick, A. Burns, and W. Gale.  Pore Network Modeling of Compressed Fuel Cell Components with OpenPNM,  Fuel Cells. 16(4), p504–515. (Link)

28. Gostick, J., M. Aghighi, J. Hinebaugh, T. Tranter, M.A. Hoeh, H. Day, B. Spellacy, M. Sharqawy, A. Bazylak, A. Burns, W. Lehnert and A. Putz.  OpenPNM: A Pore Network Modeling Package. Computing in Science & Engineering, 18(4), p60-74. (Link)

27.  Kok, M., A. Khalifa, J. Gostick, Multiphysics Simulation of the Flow Battery Cathode: Cell Architecture and Electrode Optimization. Journal of the Electrochemical Society, 163(7), p.A1408-1419. (Link)

26.  Aghighi M.A., M.A. Hoeh, W. Lehnert, G. Merle, and J. Gostick*, Simulation of a Full Fuel Cell Membrane Electrode Assembly Using Pore Network Modeling. Journal of the Electrochemical Society, 163(4), p.F384-392. (Link)


25. Schalenbach, M., M. Hoeh, J. Gostick, W. Lueke, D. Stolten.  Gas Permeation Through Nafion. Part 2: Resistor Network Model. Journal of Physical Chemistry C, 119 (45), p.25156–25169. (Link)

24. Quesnel C., R. Cao, J. Lehr, A. Kietzig, A. Weber and J. Gostick. Dynamic Percolation Behavior in Double Layered Porous Materials. Journal of Physical Chemistry C, 119(40), p.22934–22944. (Link)

23. Gostick, J. and A. Weber, Resistor-Network Modeling of Ionic Conduction in Polymer Electrolytes. Electrochimica Acta, 179(October), p.137-145. (Link)

22. Lopes, J.H., S. Ye , J.T. Gostick, J. Barralet, and G. Merle, Electrocatalytic Oxygen Reduction Performance of Silver Nanoparticle Decorated Electrochemically Exfoliated Graphene.  Langmuir, 31(35), p.9718-9727. (Link)

21. García-Salaberri, P.A., J. Gostick, G. Hwang, A.Z. Weber and M. Vera. Effective diffusivity in partially-saturated carbon-fiber gas diffusion layers: Effect of local saturation and application to macroscopic continuum models. Journal of Power Sources, 296(November): p.440-453. (Link)

20. García-Salaberri, P., G. Hwang, M. Vera, A.Z. Weber and J. Gostick. Effective diffusivity in partially-saturated carbon-fiber gas diffusion layers: Effect of through-plane saturation distribution. International Journal of Heat and Mass Transfer, 86(July): p.319-333. (Link)

19. Rashapov, R., J. Unno and J. Gostick, Characterization of PEMFC gas diffusion layer porosity. Journal of the Electrochemical Society, 162(6): p.F603-612. (Link)

18. Rashapov, R et al. A method for Measuring In-Plane Effective Diffusivity in Thin Porous Media. International Journal of Heat and Mass Transfer, 85(June): p 367-374. (Link)

17. Kok, M, J. Gostick, Transport Properties of Electrospun Fibrous Membranes with Controlled Anisotropy. Journal of Membrane Science, 1(473): p. 237-244. (Link)


16. Morris, D et al., Effect of Water Sorption on the Electronic Conductivity of Porous Polymer Electrolyte Membrane Fuel Cell Catalyst Layers. ACS Applied Materials & Interfaces, 6 (21): p. 18609–18618. (Link)


15. Gostick, J., Random pore network modeling of fibrous PEMFC gas diffusion media using Voronoi and Delaunay tessellations. Journal of the Electrochemical Society, 160(8): p. F731-F743. (Link)


14. Morris, D and J. Gostick, Determination of the in-plane components of the electrical conductivity tensor in PEM fuel cell gas diffusion layers. Electrochimica Acta, 85(1): p. 665-673. (Link)


13. Weber, A.Z., M.M. Mench, J.P. Meyers, P.N. Ross, J. Gostick, and Q. Liu, Redox flow batteries, a review. Journal of Applied Electrochemistry, 41(10): p. 1137-1164. (Link)

12. Gostick, J.T. and M.A. Ioannidis, Comment on “Effect of gas diffusion layer properties on the time of breakthrough” by Shahraeeni and Hoorfar. Journal of Power Sources, 196(22): p. 9844. (Link)

11. Hwang, G.S., M. Kaviany, J.T. Gostick, B. Kientiz, A.Z. Weber, and M.H. Kim, Role of water states on water uptake and proton transport in Nafion using molecular simulations and bimodal network, Polymer. 52(12): p. 2584-2593. (Link)


10. Bunmark, N., S. Limtrakul, M.W. Fowler, T. Vatanatham, and J. Gostick, Assisted water management in a PEMFC with a modified flow field and its effect on performance. International Journal of Hydrogen Energy, 35(13): p. 6887-6896. (Link)

9. Gostick, J.T., M.A. Ioannidis, M.D. Pritzker, and M.W. Fowler, Impact of liquid water on reactant mass transfer in PEM fuel cell electrodes. Journal of the Electrochemical Society, 57(4): p. B563-B571. (Link)


8. Gostick, J.T., M.A. Ioannidis, M.W. Fowler, and M.D. Pritzker, Wettability and capillary behavior of fibrous gas diffusion media for polymer electrolyte membrane fuel cells. Journal of Power Sources, 194: p. 433-444. (Link)

7. Gostick, J.T., M.A. Ioannidis, M.W. Fowler, and M.D. Pritzker, On the role of the microporous layer in PEMFC operation. Electrochemistry Communications, 11(3): p. 576-579. (Link)


6. Gostick, J.T., M.A. Ioannidis, M.W. Fowler, and M.D. Pritzker, Direct measurement of the capillary pressure characteristics of water-air-gas diffusion layer systems for PEM fuel cells. Electrochemistry Communications, 10: p. 1520-1523. (Link)


5. Gostick, J.T., M.A. Ioannidis, M.W. Fowler, and M.D. Pritzker, Pore network modeling of fibrous gas diffusion layers for polymer electrolyte membrane fuel cells. Journal of Power Sources, 173: p. 277-290. (Link)


4. Gostick, J.T., M.W. Fowler, M.D. Pritzker, M.A. Ioannidis, and L.M. Behra, In-Plane and through-plane gas permeability of carbon fiber electrode backing layers. Journal of Power Sources, 162 (1): p. 228-238. (Link)

3. Gostick, J.T., M.W. Fowler, M.A. Ioannidis, M.D. Pritzker, Y.M. Volfkovich, and A. Sakars, Capillary pressure and hydrophilic porosity in gas diffusion layers for polymer electrolyte fuel cells. Journal of Power Sources, 156(2): p. 375-387. (Link)


2. Gostick, J., M. Pritzker, A. Lohi, and H.D. Doan, Mass transfer variation within a packed bed and its relation to liquid distribution. Chemical Engineering Journal, 100(1-3): p. 33-41. (Link)


1. Gostick, J., H.D. Doan, A. Lohi, and M.D. Pritzker, Investigation of Local Mass Transfer in a Packed Bed of Pall Rings Using a Limiting Current Technique. Industrial & Engineering Chemistry Research, 42(15): p. 3626-3634. (Link)