| 1 |
Microbial electrolysis cells using complex substrates achieve high performance via continuous feeding-based control of reactor concentrations and community structure
Lewis AJ, Borole AP
Applied Energy, 240, 608, 2019 |
| 2 |
Microbial electrolysis using aqueous fractions derived from Tail-Gas Recycle Pyrolysis of willow and guayule
Satinover SJ, Elkasabi Y, Nunez A, Rodriguez M, Borole AP
Bioresource Technology, 274, 302, 2019 |
| 3 |
Hydrogen production from pine-derived catalytic pyrolysis aqueous phase via microbial electrolysis
Brooks V, Lewis AJ, Dulin P, Beegle JR, Rodriguez M, Borole AP
Biomass & Bioenergy, 119, 1, 2018 |
| 4 |
Electrosorption of organic acids from aqueous bio-oil and conversion into hydrogen via microbial electrolysis cells
Park LKE, Satinover SJ, Yiacoumi S, Mayes RT, Borole AP, Tsouris C
Renewable Energy, 125, 21, 2018 |
| 5 |
Adapting microbial communities to low anode potentials improves performance of MECs at negative potentials
Lewis AJ, Borole AP
Electrochimica Acta, 254, 79, 2017 |
| 6 |
pH Neutralization of Aqueous Bio-Oil from Switchgrass Intermediate Pyrolysis Using Process Intensification Devices
Park LKE, Ren SJ, Yiacoumi S, Ye XP, Borole AP, Tsouris C
Energy & Fuels, 31(9), 9455, 2017 |
| 7 |
Contribution of acidic components to the total acid number (TAN) of bio-oil
Park LKE, Liu JJ, Yiacoumi S, Borole AP, Tsouris C
Fuel, 200, 171, 2017 |
| 8 |
Separation of Switchgrass Bio-Oil by Water/Organic Solvent Addition and pH Adjustment
Park LKE, Ren SJ, Yiacoumi S, Ye XP, Borole AP, Tsouris C
Energy & Fuels, 30(3), 2164, 2016 |
| 9 |
Hydrogen production from switchgrass via an integrated pyrolysis-microbial electrolysis process
Lewis AJ, Ren S, Ye X, Kim P, Labbe N, Borole AP
Bioresource Technology, 195, 231, 2015 |
| 10 |
Effects of operating conditions on internal resistances in enzyme fuel cells studied via electrochemical impedance spectroscopy
Aaron D, Borole AP, Yiacoumi S, Tsouris C
Journal of Power Sources, 201, 59, 2012 |
