Publication

Publications

Book chapter

1.       B. Kim1, J. Dziegielowski, and M. D. Lorenzo*, “Soil microbial fuel cells for energy harvesting and bioremediation of soil contaminated with organic pollutants”, Book title: The <Good> Microbes in Human Health, Food Production, Biotechnology, Bioremediation and Agriculture

Publications

33. Moungsung Kim , Junsang Park , Woowon Jeong , Hyunjin Kim , Eunchan Jung , Bongkyu Kim *,(2025), Development of integrated system combining parallel-connected microbial fuel cells and microbial electrolysis cell for green hydrogen production, Bioresource Technology, 133445

32.   Y Yoon, B Kim*, M Cho* (2024) Feasibilty of UVC-LED/H2O2 Advanced Oxidation Processes as a Hybrid Water Treatment System Uniting Secondary Battery and Microbial Fuel Cell, Journal of Environmental Chemical Engineering, 114222

31.   RP Patil, MA Mahadik, WS Chae, J Ryu*, B Kim*, JS Jang* Boosting photoelectrochemical hydrogen production performance by in-situ transformation of self-assembled Cd (OH) 2 nanowire on CdS nanorod, Applied Surface Science, 161314

30.        D Farkas, K Proctor, B Kim, CA Rossa, B Kasprzyk-Hordern, M Di Lorenzo (2024) Assessing the impact of soil microbial fuel cells on atrazine removal in soil, Journal of Hazardous Materials 478, 135473

29.        P. Anushkkaran, R. P Patil, W.-S. Chae, M. Kumar, S. H. Choi, H. H. Lee, H. G. Kim*, B Kim*, J. S. Jang* (2024) Acceleration of bulk and surface charger transfer dynamics via FePi cocatalyst-coated Ti/(Sb)-Fe2O3: Sb/(Ti)-Fe2O3 type-II homojunction photoanode for photoelectrochemical performance, Chemical Engineering Journal, 495, 153862

28.        B Kim, G Baek, C Kim, SY Lee, E Yang, S Lee, T Kim, JY Nam, C Lee, ...J. R. Kim* (2024) Progress and Prospects for Applications of Extracellular Electron Transport Mechanism in Environmental Biotechnology, ACS ES&T Engineering, 4, 7

27.        Y. Yoon, A.A. Aziz, I. S. Chang* and B. Kim* (2024) Prevalence of Escherichia coli in electrogenic biofilm on activated carbon in microbial fuel cell, Applied Microbiology and Biotechnology, 108 (1), 1-10.

26.        Y. Yoon, B. Kim*, and M. Cho* (2023) Tailored hybrid microbial water disinfection system using sequentially assembled microbial fuel cells and an ultraviolet C light-emitting diode, Water Research, 224, 120482.

25.        Y. Yoon, B. Kim*, and M. Cho* (2023) Mineral transformation of poorly crystalline ferrihydrite to hematite and goethite facilitated by an acclimated microbial consortium in electrodes of soil microbial fuel cells, Science of the Total Environment, 902, 166414

24.        Y. Yoon, H. Jee, S. H. Song, M.-H., Hwang, K.J. Chae, B. Kim*, and E Yang* (2023) Combination of H2O2 producing microbial desalination cells and UV H2O2 advanced oxidation process Water salinity reduction and microbial inactivation, Journal of Environmental Chemical Engineering, 11, 110110

23.        Y. Yoon, H. Park, S. An, J.-H. Ahn, B. Kim, J. Shin, Y.-E. Kim, J. Yeon, J.-H. Chung, D. Kim, M. Cho (2023) Bacterial degradation kinetics of poly(Ɛ-caprolactone) (PCL) film by Aquabacterium sp. CY2-9 isolated from plastic-contaminated landfill.pdf

22.        B. Kim, E. Yang, B. Kim, M. Obaid, J.K. Jang, K.J. Chae (2022) Recent Application of Nanomaterials to Overcome Technological Challenges of Microbial Electrolysis Cells, Nanomaterials 12 (8), 1316

21. A. Kaur1,*, B. Kim, R. Dinsdale, A. Guwy, E. Yu, and G. Premier (2021) Challenges in Scale up of Electrochemical CO2 Reduction to Formate Integrated with Product Extraction Using Electrodialysis. Journal of Chemical Technology & Biotechnology. 96, 2461-2471

20. E. Casula1, B. Kim1, H. Chesson M. D. Lorenzo*, and M. Mascia* (2021) Modelling the influence of soil properties on performance and bioremediation ability of a pile of soil microbial fuel cells. Electrochimica Acta. 368, 137568

19. B. Kim1,*, I. S. Chang, R. M. Dinsdale and A. J. Guwy (2021) Accurate measurement of internal resistance in microbial fuel cells by improved scanning electrochemical impedance spectroscopy. Electrochimica Acta. 366, 137388

18. B. Kim1, N. Jang, M, Lee, J. K. Jang and I. S. Chang* (2021) Microbial fuel cell driven mineral rich wastewater treatment process for circular economy by creating virtuous cycles. Bioresour. Technol. 320, 124254 

17. B. Kim1, S. V. Mohan, D. Fapyane and I. S. Chang* (2020) Controlling Voltage Reversal in Microbial Fuel Cell. Trends in Biotechnology. 38, 6, 667-678

16. B. Kim1 and I. S. Chang* (2018) Elimination of Voltage Reversal in Multiple Membrane Electrode Assembly Installed Microbial Fuel Cells (mMEA-MFCs) Stacking System by Resistor Control. Bioresour. Technol. 262, 338-341

15. S. Choi1, B. Kim, and I. S. Chang* (2018) Tracking of Shewanella oneidensis MR-1 biofilm formation of a microbial electrochemical system via differential pulse voltammetry. Bioresour Technol. 254, 357-361.

14. B. Kim1, S. Choi, J. An and I. S. Chang* (2017) Self-recoverable voltage reversal in stacked microbial fuel cells due to biofilm capacitance. Bioresour. Technol. 245, 1286-1289

13. Y. S. Lee1, J. An, B. Kim, I. S. Chang* (2017) Serially Connectable Sediment Microbial Fuel Cells Using Multi-hole Dipole Graphite Solids and Voltage Reversal Suppression through Manipulation of Ohmic Resistance. Energy Technol. 5, 1946-1952

12. B. Kim1, J. An and I. S. Chang* (2017) Elimination of Power Overshoot at Bioanode through Assistance Current in Microbial Fuel Cells. ChemSusChem. 10, 612-617

11. J. Kim1, B. Kim, J. An, Y. S. Lee and I. S. Chang* (2016) Development of anode zone using dual-anode system to reduce organic matter crossover in membraneless microbial fuel cells. Bioresour Technol. 213, 140-145.

10. Y. S. Lee1, J. An, B. Kim, H. J. Park, J. Kim and I. S. Chang* (2016) Increased power in sediment microbial fuel cell: facilitated mass transfer with using a water-layer anode in sediment. PLoS ONE. 10(2), e0145430

9. J. Nam1, Y. S. Lee, J. An, B. Kim, H.-S. Lee and I. S. Chang* (2015) Correlation of overvoltages and current densities to estimate optimal electrode size for sediment microbial fuel cells. Energy Technol. 3, 369-374

8. B. Kim1, J. An, D. Fapyane and I. S. Chang* (2015) Bioelectronic platforms for optimal bio-anode of bio-electrochemical systems: from nano- to macro scopes Bioresour. Technol. 195, 2-13 (Review paper)

7. J. An1, J. Nam, B. Kim, H.-S. Lee, B. H. Kim and I. S. Chang* (2015) Performance variation according to anode-embedded orientation in a sediment microbial fuel cell employing a chessboard-like hundred-piece anode. Bioresource Technology. 190, 175-181

6. B. Kim1, B. G. Lee, B. H. Kim and I. S. Chang* (2015) Assistance current effect for prevention of voltage reversal in stacking of microbial fuel cell system. ChemElectroChem, 2 (5), 755-760

5. J. An1, B. Kim, I. S. Chang and H.-S. Lee* (2015) Shift of voltage reversal in stacked microbial fuel cell. J. Power Sources. 278, 534-539

4. J. An1, B. Kim, J. K. Jang, H.-S. Lee and I. S. Chang* (2014) New architecture for modulization of membraneless and single-chambered microbial fuel cell using a bipolar plate-electrode assembly (BEA). Biosen. Bioelectron. 59, 28-34

3. B. Kim1, J. An, D. Kim, T. Kim, J. K. Jang, B.-G. Lee and I. S. Chang* (2013) Voltage increase of microbial fuel cells with multiple membrane electrode assemblies by in series connection. Electrochemistry Communications. 28, 131-134

2. J. An1, B. Kim, J. Nam, H. Y. Ng and I. S. Chang* (2013) Comparison in performance of sediment microbial fuel cells according to depth of embedded anode. Bioresource Technology. 127, 138-142

1. D. Kim1, J. An, B. Kim, J. K. Jang, B. H. Kim and I. S. Chang* (2012) Scaling up microbial fuel cells: configuration and potential drop phenomenon at series connection of unit cells in shared anolyte. ChemSusChem. 5, 1086-1091 (cover page highlighted)1.   RP Patil, MA Mahadik, WS Chae, J Ryu*, B Kim*, JS Jang* Boosting photoelectrochemical hydrogen production performance by in-situ transformation of self-assembled Cd (OH) 2 nanowire on CdS nanorod, Applied Surface Science, 161314

Patents

1.       I. S. Chang and J. K. Jang and B. Kim, “DESCENDING TYPE MICROBIAL FUEL CELL SYSTEM AND METHODE OF OPERATION THEREOF”, Korean Patent 10-2052005, Nov. 2019

2.       I. S. Chang and B. Kim. “PREVENTION OF VOLTAGE REVERSAL IN STACKING OF MICROBIAL FUEL CELL SYSTEM BY COLLABORATION OF ASSITANCE ELECTRODE AND ASSISTANCE CURRENT”, Korean Patent 10-1718494, March. 2017

3.       I. S. Chang, J. An, and B. Kim. “ELECTROLYTE-MEMBRANELESS MICROBIAL FUEL CELL, IN-SERIES STACK THEREOF, AND IN-PARALLEL COMBINATION THEREOF”, US patent 14-9391338, July. 2016

4.       I. S. Chang, B. Kim, S. Y. Lee, H. J. Park and J. Kim. “SEDIMENT TYPE MICROBIAL FUEL CELL”, Korean Patent 10-1599920, Feb. 2016

5.       I. S. Chang, J. K. Jang, T. Kim, and B. Kim. “HYBRID REACOTR CONSISTING OF UPFLOW ANAEROBIC SLUDGE BLANKET REACTOR AND MICROBIAL FUEL CELL”, Korean Patent 10-1528159, June. 2015

6.       I. S. Chang, J. An, and B. Kim. “MICROBIAL FUEL CELL WITHOUT COMPRISING MEMBRANE ELECTROLYTE, IN-SERIES STACK THEREOF, AND IN-PARALLEL COMBINATION THEREOF”, Korean Patent 10-1440779, Sept. 2014

7.       I. S. Chang, B. Kim, S. Y. Lee, H. J. Park and J. Kim. “SEDIMENT TYPE MICROBIAL FUEL CELL”, US patent 14-10566642, Feb. 2020

8.       I. S. Chang, B. Kim, S. Y. Lee, H. J. Park and J. Kim. “SEDIMENT TYPE MICROBIAL FUEL CELL”, Patent Cooperation Treaty (PCT) Pending PCT/KR2015/001687, Feb. 2015