Gostick, Jeff
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Refereed Journal Publications
Evaluation of Electrospun Fibrous Mats Targeted for Use as Flow Battery Electrodes, Selina Liu, Matt Kok, Yongwook Kim, John L Barton, Fikile R Brushett, Jeff Gostick. Journal of The Electrochemical Society 164 (9), pp. A2038-A2048 (2017/1/1)
Fabrication and Characterization of Electrospun Electrodes for Flow Battery Electrodes, Selina Peng Liu, Matt Kok, Jeff T Gostick. ECS Transactions 75 (18), pp. 15-25 (2017/1/10)
Stochastic modeling of polymer electrolyte membrane fuel cell gas diffusion layers – Part 2: A comprehensive substrate model with pore size distribution and heterogeneity effects, J Hinebaugh, J Gostick, A Bazylak. International Journal of Hydrogen Energy (2017/5/22)
Fluid Transport Properties from 3D Tomographic Images of Electrospun Carbon Electrodes for Flow Batteries, Matthew DR Kok, Rhodri Jervis, Paul R Shearing, Jeff T Gostick. ECS Transactions 77 (11), pp. 129-143 (2017/7/7)
On the Limitations of Volume-Averaged Descriptions of Gas Diffusion Layers in the Modeling of Polymer Electrolyte Fuel Cells, Pablo A García-Salaberri, Jeff T Gostick, Iryna V Zenyuk, Gisuk Hwang, Marcos Vera, Adam Z Weber. ECS Transactions 80 (8), pp. 133-143 (2017/8/24)
Pore network modeling of phase change in PEM fuel cell fibrous cathode, Mahmoudreza Aghighi, Jeff Gostick. Journal of Applied Electrochemistry 47 (12), pp. 1323-1338 (2017/12/1)
Statistics from Google Scholar: h-index = 17, i10 = 29, Citations > 2700
(Students in bold, * indicates corresponding author)
Under Review
43. | Sadeghi, A., Barralet, J. E. & Gostick, JT* The interplay between microstructure, transport properties, and kinetics in flow batteryelectrodes: a pore network modeling study. Electrochimica Acta. |
42. | Kok, MDR, T Tranter, MR Lam, and JT Gostick*, PoreSpy: An image analysis toolkit for voxel images of porous materials. Journal of Open Source Software. |
41. | Kok, MDR., R. Jervis, D. Brett, P. Shearing, and JT Gostick*, Pore network modeling of capillary hysteresis in neutrally wettable fibrous media. Small. |
In-Press
40. | Tranter, T., A. Burns, and W. Gale, J. Gostick*, Pore network modeling of capillary hysteresis in neutrally wettable fibrous media. Transport in Porous Media. |
39. | Moosavi, SM, M Niffeler, J Gostick, S Haussener,, Transport characteristics of saturated gas diffusion layers treated with hydrophobic coatings. Chemical Engineering Science. |
38. | Aghighi, M., J. Gostick*, Pore network modeling of phase change in PEM fuel cell fibrous cathode. Journal of Applied Electrochemistry. |
Published
37. | Sadeghi, M. A., Aghighi, M., Barralet, J. & Gostick, J. T.*, Pore network modeling of reaction-diffusion in hierarchical porous particles: The effects of microstructure. Chemical Engineering Journal 330, 1002–1011 (2017). |
36. | Liu, S, MDR Kok, YW Kim, JL Baron, FR Brushett, JT Gostick*, Evaluation of Electrospun Fibrous Mats Targeted for Use as Flow Battery Electrodes. J. Electrochem. Soc. 164, A2038–A2048 (2017). |
35. | Gostick, J. T. Versatile and efficient pore network extraction method using marker-based watershed segmentation. Phys. Rev. E 96, 023307 (2017). |
34. | Hinebaugh, J., Gostick, J. & Bazylak, A. 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, 15872–15886 (2017). |
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. Volume 110(July), 132–141. |
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. |
31. | Rashapov, R., and J. Gostick*, In-plane effective diffusivity in PEMFC gas diffusion layers. Transport in Porous Media, 2016. 115(3), 411-433. |
30. | Zhang Z., J.H. Lopes, S. Ye, J. Gostick, J.E. Barralet, and G. Merle, Electrically Bloomed Platinum Nanoflowers on Exfoliated Graphene: An Efficient Alcohol Oxidation Catalyst. Journal of the Electrochemical Society, 2016. 163(10), D615-D621. |
29. | Tranter, T., J. Gostick, A. Burns, and W. Gale. Pore Network Modeling of Compressed Fuel Cell Components with OpenPNM, Fuel Cells, 2016. 16(4), p504–515. |
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 2016. 18(4), p60-74. |
27. | Kok, M., A. Khalifa and J. Gostick*. Multiphysics Simulation of the Flow Battery |
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, 2016. 163(4), p.F384-392. |
25. | Schalenbach, M., M.A. Hoeh, J. Gostick, W. Lueke and D. Stolten. Gas Permeation through Nafion®. Part 2: Resistor Network Model. Journal of Physical Chemistry C, 2015. 119(45), p.25156–25169. |
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, 2015. 119(40), p.22934–22944. |
23. | Gostick, J. and A. Weber, Resistor-Network Modeling of Ionic Conduction in Polymer Electrolytes. Electrochimica Acta, 2015. 179(October), p.137-145. |
22. | Lopez, J., G. Merle, S. Ye , J. Gostick, J. Barralet, Nanoparticle decoration of defect-free electrochemically exfoliated graphene. Langmuir, 2015. 31(35), p.9718-9727. |
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, 2015. 296: p. 440–453. |
20. | García-Salaberri, P.A., 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, 2015. 86: p. 319–333. |
19. | Rashapov, R., J. Unno and J. Gostick*, Characterization of PEMFC gas diffusion layer porosity. Journal of the Electrochemical Society, 2015. 162(1): p. F603-F612. |
18. | Rashapov, R., F. Imami and J. Gostick*, Experimental method of in-plane effective diffusion coefficient measurements of porous media. International Journal of Heat and Mass Transfer, 2015. 85: p. 367-374. |
17. | Kok, M.R.D., J. Gostick*, Transport properties of electrospun fibrous membranes with controlled anisotropy. Journal of Membrane Science, 2015. 1(473): p. 237-244. |
16. | Morris, D., S. Liu, D. Villegas and J. Gostick*, Electrical conductivity of fuel cell catalyst layers under controlled relative humidity. ACS Applied Materials & Interfaces, 2014. 6(21): p. 18609–18618. |
15. | Gostick, J.*, Random pore network modeling of fibrous PEMFC gas diffusion media using Voronoi and Delaunay tessellations. Journal of the Electrochemical Society, 2013. 160(8): p. F731-F743. |
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, 2012. 85(1): p. 665-673. |
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, 2011. 41(10): p. 1137-1164. |
12. | Gostick, J.* 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, 2011. 196(22): p. 9844. |
11. | Hwang, G.S., M. Kaviany, J. 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, 2011. 52(12): p. 2584-2593. |
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, 2010. 35(13): p. 6887-6896. |
9. | Gostick, J., 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, 2010. 57(4): p. B563-B571. |
8. | Gostick, J., 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, 2009. 194: p. 433-444. |
7. | Gostick, J., M.A. Ioannidis, M.W. Fowler, and M.D. Pritzker, On the role of the microporous layer in PEMFC operation. Electrochemistry Communications, 2009. 11(3): p. 576-579. |
6. | Gostick, J., 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, 2008. 10: p. 1520-1523. |
5. | Gostick, J., 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, 2007. 173: p. 277-290. |
4. | Gostick, J., 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, 2006. 162 (1): p. 228-238. |
3. | Gostick, J., 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, 2006. 156(2): p. 375-387. |
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, 2004. 100(1-3): p. 33-41. |
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, 2003. 42(15): p. 3626-3634. |
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