Kim, T, B.E. Logan and C.A. Gorski. 2017. A pH-gradient flow cell for converting waste CO2 into electricity. Environ. Sci. Technol. Lett.4(2):49–53.
Kim, T., B.E. Logan, and C.A. Gorksi. 2017. High power energy recovery in an electrochemical process from salinity differences by combining electrode and Donnan potentials in a concentration flow cell. Energy Environ. Sci. 10(4):1003–1012.[Supporting information]
Rahimi, M., A. D’Angelo, C.A. Gorski, O Scialdone, and B.E. Logan. 2017. Electrical power production from low-grade waste heat using a thermally regenerative ethylenediamine battery. J. Power Sources. 351:45–50. [Supporting information.]
Rahimi, M., L. Zhu, K.L. Kowalski, X. Zhu, C.A. Gorski, M.A. Hickner, and B.E. Logan. 2017. Improved electrical power production of thermally regenerative batteries using a poly(phenylene oxide) based anion exchange membrane. J. Power Sources. 342:956-963.[Supporting information]
Kim, K-Y., W. Yang, Y. Ye, N. LaBarge, and B.E. Logan. 2016. Performance of anaerobic fluidized membrane bioreactors using effluents of microbial fuel cells treating domestic wastewater. Biores. Technol. 208:58-63. [Supporting information]
Kim, T., M. Rahimi, C.A. Gorski and B.E. Logan. Salinity-gradient flow battery for harvesting energy from salinity differences. Environ. Sci. Technol. 50(17):9791−9797.
Kim, T., M. Rahimi, B.E. Logan and C.A. Gorski. 2016. Evaluating battery-like reactions to harvest energy from salinity differences using ammonium bicarbonate salt solutions. ChemSusChem. 9(9):981-988.
LaBarge, N., Y. Ye, K.-Y. Kim, Y.D. Yilmazel, P. Hong, P.E. Saikaly, and B.E. Logan. 2016. Impact of acclimation methods on microbial communities and performance of anaerobic fluidized bed membrane bioreactors. Env. Sci Wat. Res. Technol. 2:1041-1048. [Supporting Information]
Ye, Y., N. LaBarge, H. Kashima, K.-Y. Kim, P. Hong, P.E. Saikaly, and B.E. Logan. 2016. An aerated and fluidized bed membrane bioreactor for effective wastewater treatment with low membrane fouling. Environ. Sci. Water Res. Technol. 2:994-1003. [Supporting information]
Zhang, F., N. LeBarge, W. Yang, J. Liu, and B.E. Logan. 2015. Enhancing the performance of low-grade thermal energy recovery in a thermally regenerative ammonia battery (TRAB) by using elevated temperatures. ChemSusChem. 8:1043-1048. [Supporting information]
Zhang, F., J. Liu, W. Yang, and B.E. Logan. 2015. A thermally regenerative ammonia-based battery for efficient harvesting of low-grade thermal energy as electrical power. Energy Env. Sci. 8(1):343-3249. [Supporting information]
Zhu, X., M. Rahimi, C. Gorski and B.E. Logan. 2016. A thermally-regenerative ammonia-based flow battery for electrical energy recovery from waste heat. ChemSusChem. 9(8):873-879.
Zhu, X., W. He, and B.E. Logan. 2015. Influence of solution concentration and composition on the performance of reverse electrodialsysis cells. J. Membrane Sci. 494:154–160
Zhu, X., W. He, and B.E. Logan. 2015. Reducing pumping energy by using different flow rates of high and low concentration solutions in reverse electrodialysis cells. J. Membrane Sci. 486:215-221.
Geise, G.M., H.J. Cassady, D.R. Paul, B.E. Logan, and M.A. Hickner. 2014.Specific ion effects on membrane potential and the permselectivity of ion exchange membranes. Phys. Chem. Chem. Phys. 16(39):21673-21681.
Geise, G.M., A.J. Curtis, M.C. Hatzell, M.A. Hickner, and B.E. Logan. 2014. Salt concentration differences alter membrane resistance in reverse electrodialysis stacks. Environ. Sci. Technol. Lett. 1(1):36-39. [Supporting information]
Hatzell, M.C., R.D. Cusick, and B.E. Logan. 2014. Capacitive mixing power production from salinity gradient energy enhanced through exoelectrogen-generated ionic currents. Energy Env. Sci. 7(3):1159-1165. [Supporting information]
Hatzell, M.C., K.B. Hatzell, and B.E. Logan. 2014. Using flow electrodes in multiple reactors in series for continuous energy generation from capacitive mixing. Environ. Sci. Technol. Lett. 1(12):474-478.[Supporting information]
Ren, L., Y. Ahn, and B.E. Logan. 2014. Domestic wastewater treatment with a two-stage microbial fuel cell and anaerobic fluidized bed membrane bioreactor (MFC-AFMBR) system. Environ. Sci. Technol. 48(7):4199–4206. [Supporting information]
Logan, B.E. and M. Elimelech. 2012. Membrane-based processes for sustainable power generation using water and wastewater. Nature. 488:313-319.
C. R. Yee, G. R. Robbins, F. M. Barth, J. M. DeSimone, S. W. Hetts and N. P. Balsara, “3D printed absorber for capturing chemotherapy drugs before they spread through the body,” ACS Central Science, 2019, DOI: 10.1021/acscentsci.8b00700 (Journal Cover Article and Embargoed Press Release on January 9, 2019 including BBC News)
J. A. Maslyn, W. S. Loo, K. D. McEntush, H. J. Oh, K. J. Harry, D. Y. Parkinson and N. P. Balsara, “Growth of lithium dendrites and globules through a solid block copolymer electrolyte as a function of current density,” Journal of Physical Chemistry, Part C: Energy Conversion and Processes, 2018, 122 (47), 26797-26804
W. S. Loo, M. D. Galluzzo, X. Li, J. A. Maslyn, H. J. Oh, K. I. Mongcopa, C. Zhu, A. A. Wang, X. Wang, B. Garetz and N. P. Balsara, “Phase behavior of mixtures of block copolymers and a lithium salt,” Journal of Physical Chemistry, Part B, 2018, 122 (33), 8065-8074
W. S. Loo, X. Jiang, J. A. Maslyn, H. J. Oh, C. Zhu, K. H. Dowing and N. P. Balsara, “Reentrant phase behavior and coexistence in asymmetric block copolymer electrolytes,” Soft Matter, 2018, 14, 2789-2795 (Journal Back Cover Article)
M. A. Aboian, J. F. Yu, A. Gautam, C-H Sze, J. K. Yang, J. Chan, P. Lilaney, C. D. Jordan, H. J. Oh, D. M. Wilson, A. S. Patel, M. W. Wilson and S. W. Hetts, “In vitro clearance of doxorubicin with a DNA-based filtration device designed for intravascular use with intra-arterial chemotherapy,” Biomedical Microdevices, 2016, 18:98
X. C. Chen, H. J. Oh, J. F. Yu, J. K. Yang, N. Petzetakis, A. S. Patel, S. W. Hetts and N. P. Balsara, “Block Copolymer Membranes for Efficient Capture of a Chemotherapy Drug,” ACS Macro Letters, 2016. 5(8), 936-941 (ACS Editor’s Choice Article)
H. J. Oh, J. E. McGrath and D. R. Paul, “Water and salt transport properties of disulfonated poly(arylene ether sulfone) desalination membranes formed by solvent-free melt extrusion,” Journal of Membrane Science, 2018. 546, 234-245
H. J. Oh, J. E. McGrath and D. R. Paul, “Kinetics of poly(ethylene glycol) extraction into water from plasticized disulfonated poly(arylene ether sulfone) desalination membranes prepared by solvent-free melt processing,” Journal of Membrane Science, 2017, 524, 257-265
H. J. Oh, J. S. Park, S. Inceoglu, I. Villaluenga, J. L. Thelen, X. Jiang, J. E. McGrath and D. R. Paul, “Formation of disulfonated poly(arylene ether sulfone) thin film desalination membranes plasticized with poly(ethylene glycol) by solvent-free melt extrusion,” Polymer, 2017, 109, 106-114
H. J. Oh, B. D. Freeman, J. E. McGrath, C. J. Ellison, S. Mecham, K. S. Lee and D. R. Paul, “Rheological studies of disulfonated poly(arylene ether sulfone) plasticized with poly(ethylene glycol) for membrane formation,” Polymer, 2014. 55, 1574-1582
H. J. Oh, B. D. Freeman, J. E. McGrath, C. H. Lee and D. R. Paul, “Thermal analysis of disulfonated poly(arylene ether sulfone) plasticized with poly(ethylene glycol) for membrane formation,” Polymer, 2014. 55, 235-247
C. H. Lee, D. VanHouten, O. Lane, J. E. McGrath, J. Hou, L. A. Madsen, J. Spano, S. Wi, J. Cook, W. Xie, H. J. Oh, G. M. Geise and B. D. Freeman, “Disulfonated poly(arylene ether sulfone) random copolymer blends tuned for rapid water permeation via cation complexation with poly(ethylene glycol) oligomers,” Chemistry of Materials, 2011. 23(4), 1039-1049
H. J. Oh, J. M. Park and K. P. Lee, “UI (User Interface) in product design in chemical engineering and its future application in ubiquitous society with IT devices,” The 19th International Symposium on Chemical Engineering Kyushu(Japan)-Daejeon/Chungnam(Korea), Kitakyushu, Japan, 2006
Li, Y., K. Zhu, A.L. Zydney, “Effect of ionic strength on membrane fouling during ultrafiltration of plasmid DNA,” Sep. Purif. Tech., 176: 287-293 (2017).
Baek, Y., N. Singh, A. Arunkumar, A.L. Zydney, “Ultrafiltration behavior of an Fc-fusion protein: Filtrate flux data and modeling,” J. Membrane Sci., 528: 171-177 (2017).
Baek, Y., N. Singh, A. Arunkumar, A.L. Zydney, “Effects of histidine and sucrose on the biophysical properties of a monoclonal antibody,” Pharm. Res., 34: 629-639 (2017).
Feinberg, B.J., J.C. Hsiao, J. Park, A.L. Zydney, W.H. Fissell, S. Roy, “Silicon nanoporous membranes as a rigorous platform for validation of biomolecular transport models,” J. Membrane Sci., 536: 44-51 (2017).
Fallahianbijan, F., S. Giglia, C. Carbrello, A.L. Zydney, “Use of fluorescently-labeled nanoparticles to study pore morphology and virus capture in virus filtration membranes,” J. Membrane Sci., 536: 52-58 (2017).
Dutta A. K., D. Fedorenko, J. Tan, J.A. Costanzo, D.S. Kahn, A. L. Zydney, O. Shinkazh, “Continuous countercurrent tangential chromatography (CCTC) for mixed mode post-capture operations in monoclonal antibody purification,” J Chromatography A, 1511: 37-44 (2017).
Baek, Y., N. Singh, A. Arunkumar, M. Borys, Z.J. Li, A.L. Zydney, “Ultrafiltration behavior of monoclonal antibodies and Fc-fusion proteins: Effects of physical properties,” Biotech Bioeng., 114: 2057-2065 (2017).
Zydney, A.L., “Continuous downstream processing for high value biological products: A review,” Biotech. Bioeng., 113: 465-475 (2016).
Li, Y., D. Currie, A.L. Zydney, “Enhanced purification of plasmid DNA isoforms by exploiting ionic strength effects during ultrafiltration,” Biotech. Bioeng., 113: 783-789 (2016).
Dutta A. K., J. Tan, B. Napadensky, A. L. Zydney, O. Shinkazh, “Performance optimization of continuous countercurrent tangential chromatography for antibody capture,” Biotech. Prog., 32: 430-439 (2016).
Li, Y., N. Butler, A.L. Zydney, “Size-based separation of supercoiled plasmid DNA using ultrafiltration,” J. Colloid Interf. Sci., 472: 195-201 (2016).
Lin, J., W. Ye, M-C. Baltaru, Y. P. Tang, N. J. Bernstein, P. Gao, S. Balta, M. Vlad, A. Volodin, A. Sotto, P. Luis, A. L. Zydney, B. Van der Bruggen, “Tight ultrafiltration membranes for enhanced separation of dyes and Na2SO4 during textile wastewater treatment,” J. Membrane Sci., 514: 217-228 (2016).
Xiong, B., A. L. Zydney, M. Kumar, “Fouling of microfiltration membranes by flowback and produced waters from the Marcellus shale gas play,” Water Research, 99: 162-170 (2016).
Motevalian, S. P., A. Borhan, H. Zhou, A. Zydney, “Twisted hollow fiber membranes for enhanced mass transfer,” J. Membrane Sci., 514: 586-594 (2016).
Binabaji, E., J. Ma, S. Rao, and A. L. Zydney, “Ultrafiltration of highly concentrated antibody solutions: Experiments and modeling for the effects of module and buffer conditions,” Biotech. Prog., 32: 692-701 (2016).
Hadidi, M., J. J. Buckley, and A. L. Zydney, “Effects of solution conditions on characteristics and size exclusion chromatography of pneumoccoal polysaccharides and conjugate vaccines,” Carbohydrate Polymers, 152: 12-18 (2016).
Kim, S., B. Feinberg, R. Kant, B. Chui, K. Goldman, J. Park, W. Moses, C. Blaha, Z. Iqbal, C. Chow, N. Wright, W. H. Fissell, A. Zydney, S. Roy, “Diffusive silicon nanopore membranes for hemodialysis applications,” PLoS One, 11: 1-20 (2016).
Feroz, H., C. Vandervelden, B. Ikwuagwu, Be. Ferlez, C.S. Baker, D.J. Lugar, M. Grzelakowski, J.H. Golbeck, A.L. Zydney, M. Kumar, “Concentrating membrane proteins using ultrafiltration without concentrating detergents,” Biotech. Bioeng., 113: 2122-2130 (2016).
Hadidi, M., J. J. Buckley, and A. L. Zydney, “Effects of electrostatic interactions on the ultrafiltration behavior of charged bacterial polysaccharides,” Biotech. Prog., 32: 1531-1538 (2016).
Borujeni, E. E., L. Ying, and A. L. Zydney “Application of periodic backpulsing to reduce membrane fouling during ultrafiltration of plasmid DNA,” J. Membrane Sci., 473, 102-108 (2015).
Chen, X., Y. Zhao, J. Moutinho, J. Shao, A.L. Zydney, and Y. He, “Recovery of small dye molecules from aqueous solutions using charged ultrafiltration membranes.” J. Hazardous Materials, 284: 58–64 (2015).
Hadidi, M., and A. L. Zydney, “Analysis of the effects of electrostatic interactions on protein transport through zwitterionic ultrafiltration membranes using protein charge ladders,” J. Appl. Polym. Sci., 132: 41540-41548 (2015).
Guha, R., X. Shang, A. L. Zydney, D. Velegol, M. Kumar, “Diffusiophoresis contributes significantly to colloidal fouling in low salinity reverse osmosis systems,” J. Membrane Sci., 479, 67-76 (2015).
Li, Y., E. E. Borujeni, and A. L. Zydney “Use of preconditioning to control membrane fouling and enhance performance during ultrafiltration of plasmid DNA,” J. Membrane Sci., 479, 117-122 (2015).
Teella, A., A.L. Zydney, H. Zhou, C. Olsen, C. Robinson, “Effects of chemical sanitization using NaOH on the properties of polysulfone and polyethersulfone ultrafiltration membranes,” Biotech. Prog., 31: 90-96 (2015).
Hadidi, M., J. J. Buckley, and A. L. Zydney, “Ultrafiltration behavior of bacterial polysaccharides used in vaccines,” J. Membrane Sci., 490: 294-300 (2015).
Zydney, A.L., “Perspectives on integrated continuous bioprocessing – opportunities and challenges,” Curr. Opin. Chem. Eng., 10: 8 – 13 (2015).
Binabaji, E., J. Ma, and A. L. Zydney, “Intermolecular interactions and the viscosity of highly concentrated monoclonal antibody solutions,” Pharmaceutical Research., 32: 3102 – 3109 (2015).
Dishari, S. K., A. Venkiteshwaran, A. L. Zydney, “Probing effects of pressure release on virus capture during virus filtration using confocal microscopy,” Biotech. Bioeng., 112: 2115-2122 (2015).
Binabaji, E., J. Ma, S. Rao, and A. L. Zydney, “Theoretical analysis of the ultrafiltration behavior of highly concentrated protein solutions,” J. Membrane Sci., 494: 216-223 (2015).
Dishari, S. K., M. Micklin, K-J. Sung, A. Venkiteshwaran, J. N. Earley, A. L. Zydney, “Effects of solution conditions on virus retention by the Viresolve NFP filer,” Biotech. Prog., 31: 1280-1286 (2015).
Dutta A. K., T. Tran, B. Napadensky, A. Teella, G. Brookhart, P. A. Ropp, A. W. Zhang, A. D. Tustian, A. L. Zydney, O. Shinkazh, “Purification of monoclonal antibodies from clarified cell culture fluid using Protein A capture continuous countercurrent tangential chromatography,” J. Biotechnology, 213: 54 – 64 (2015)