Peer-Reviewed Articles

• • Obtaining and characterizing stable bicontinuous cubic morphologies and their nanochannels in lyotropic liquid crystal membranes; S. Sahu, N. Schwindt, B. Coscia, & M. Shirts, The Journal of Physical Chemistry B, ChemRxiv:10.26434 (2022)

  • Diffusion limitations and translocation barriers in atomically thin biomimetic pores; S. Sahu & M. Zwolak; Entropy 22, 1326 (2020); arXiv:2012 (2020) pdf SI,

  • Optimal transport and colossal ionic mechano-conductance in graphene crown ether; S. Sahu, J. Elenewski, C. Rohmann, & M. Zwolak; Science Advances 5, eaaw5478 (2019); arXiv:1907.07683 (2019) pdf SI

  • Colloquium: Ionic phenomena in nanoscale pores through 2D materials; S. Sahu & M. Zwolak; Rev. Mod. Phys 91, 021004 (2019); arXiv:1809.05098 (2018) pdf SI

  • Golden aspect ratio for ion transport simulation in nanopores; S. Sahu & M. Zwolak; Phys. Rev. E 98, 012404 (2018); arXiv: 1711.00472 (2017) pdf

  • Maxwell-Hall access resistance in graphene nanopores; S. Sahu & M. Zwolak; Physical Chemistry Chemical Physics 20, 4646 - 4651 (2018); arXiv:1708.03327 (2017) pdf SI

  • Ionic selectivity and filtration from fragmented dehydration in multilayer graphene nanopores; S. Sahu & M. Zwolak; Nanoscale 9, 11424-11428 (2017); arXiv 1705.04538 (2017) pdf SI

  • Enabling photoemission electron microscopy in liquids via graphene-capped microchannel arrays; H. Guo, E. Strelcov, A. Yulaev, J. Wang, N. Appathurai, S. Urquhart, J. Vinson, S. Sahu, M. Zwolak, & A. Kolmakov; Nano Letters 17(2), 1034-1041 (2017) pdf SI

  • Dehydration as a Universal Mechanism for Ion Selectivity in Graphene and Other Atomically Thin Pores; S. Sahu, M. Di Ventra & M. Zwolak; Nano Letters 17(8), 4719–4724 (2017); arXiv 1605.03134 (2016) pdf SI

  • Crossover behavior of the thermal conductance and Kramers transition rate theory; K. Velizhanin, S. Sahu, C. C. Chien, Y. Dubi & M. Zwolak; Scientific Reports 5, 17506 (2015) pdf SI

PhD Thesis:

Nonlinear behavior of thermal and ion transport at the nanoscale