• Abstract
• 요약문
• I. 서론
• II. 재료 및 방법
• 1. 전극의 제작
• 2. MFC의 제작 및 운전
• 3. 전기화학 분석
• III. 결과
• 1. 전력 밀도 곡선과 분극 곡선에 의한 성능 분석
• 2. 산화 전극의 임피던스 및 전기 용량
• 3. 환원 전극의 임피던스 및 전기 용량
• IV. 고찰
• 1. 산화 전극의 전기화학
• 2. 환원 전극의 전기화학
• 3. CPE 회로를 이용한 임피던스 분석에 대한 고찰
• 4. 주사 속도(scan rate)에 따른 분극 곡선 실험 결과의응용
• 5. 주사 속도가 전기화학 측정에 미치는 영향 분석
• 6. 전력 곡선 꺽임(power overshoot)의 해소
• 7. 시스템 성능을 대변하는 임피던스의 측정 방법
• V. 결론
• 사사
• References

1 구본영, "외기 환원 전극의 활성탄 촉매의 물리화학적 처리에 의한 미생물 연료전지의 성능 향상" 한국도시환경학회 16 (16): 431-439, 2016

2 정석희, "생물전기화학적 하폐수처리를 위한 미생물연료전지의 실용화" 한국도시환경학회 13 (13): 93-100, 2013

3 Brug, G., "The analysis of electrode impedances complicated by the presence of a constant phase element" 176 (176): 275-295, 1984

4 Dominguez-Benetton, X., "The accurate use of impedance analysis for the study of microbial electrochemical systems" 41 (41): 7228-7246, 2012

5 Jung, S. P., "Performance and bacterial communities of successive alkalinity-producing systems (SAPSs) in passive treatment processes treating mine drainages differing in acidity and metal levels" 21 (21): 3722-3732, 2014

6 Jung S., "Misunderstanding and Truth in Environmental and Energy Field in 2017 (1) - Microbial Fuel Cell and Fuel Cell"

7 Marsili, E., "Microbial biofilm voltammetry: direct electrochemical characterization of catalytic electrode-attached biofilms" 74 (74): 7329-7337, 2008

8 Jung, S., "Influence of External Resistance on Electrogenesis, Methanogenesis, and Anode Prokaryotic Communities in Microbial Fuel Cells" 77 (77): 564-571, 2011

9 Jung, S., "Impedance characteristics and polarization behavior of a microbial fuel cell in response to short-term changes in medium pH" 45 (45): 9069-9074, 2011

10 Sokhee Jung, "Impedance and Thermodynamic Analysis of Bioanode, Abiotic Anode, and Riboflavin-Amended Anode in Microbial Fuel Cells" 대한화학회 33 (33): 3349-3354, 2012

11 Jung, S., "Impedance Characteristics and Polarization Behavior of a Microbial Fuel Cell in Response to Short-Term Changes in Medium pH" 45 (45): 9069-9074, 2011

12 Jung, S., "Impedance Analysis of Geobacter sulfurreducens PCA, Shewanella oneidensis MR-1, and their Coculture in Bioeletrochemical Systems" 7 (7): 11091-11100, 2012

13 Yang, W., "Immobilization of a Metal-Nitrogen-Carbon Catalyst on Activated Carbon with Enhanced Cathode Performance in Microbial Fuel Cells" 2016

14 Guo, K., "Heat-treated stainless steel felt as scalable anode material for bioelectrochemical systems" 195 : 46-50, 2015

15 Logan B. E., "Exoelectrogenic bacteria that power microbial fuel cells" 7 (7): 375-381, 2009

16 Logan, B. E., "Essential data and techniques for conducting microbial fuel cell and other types of bioelectrochemical system experiments" 5 (5): 988-994, 2012

17 Kim, B., "Elimination of Power Overshoot Caused by Electron Depletion of Limited Anodic Kinetic at Bio-anode through Assistance Current in Microbial Fuel Cell" 2016

18 Orazem, M. E., "Electrochemical impedance spectroscopy" John Wiley & Sons 2011

19 Kang, H., "Effects of brush-anode configurations on performance and electrochemistry of microbial fuel cells" 42 (42): 27693-27700, 2017

20 Kang, H., "Effects of brush-anode configurations on performance and electrochemistry of microbial fuel cells" 2018

21 Jung, S. P., "Effects of Wire-type and Mesh-type Anode Current Collectors on Performance and Electrochemistry of Microbial Fuel Cells" 2018

22 Zhang, X., "Diffusion layer characteristics for increasing the performance of activated carbon air cathodes in microbial fuel cells" 2 (2): 266-273, 2016

23 Zhu, X., "Controlling the occurrence of power overshoot by adapting microbial fuel cells to high anode potentials" 90 : 30-35, 2013

24 Hirschorn, B., "Constant-phase-element behavior caused by resistivity distributions in films I. Theory" 157 (157): C452-C457, 2010

25 Jung, S., "Comparison of anode bacterial communities and performance in microbial fuel cells with different electron donors" 77 (77): 393-402, 2007

26 Son, S., "Comparison of Performance and Electrochemistry of Microbial Fuel Cells with Different Measurement Methods in a Continuous Mode"

27 Nam, T., "Comparative evaluation of performance and electrochemistry of microbial fuel cells with different anode structures and materials" 42 (42): 27677-27684, 2017

28 Nam, T., "Comparative evaluation of performance and electrochemistry of microbial fuel cells with different anode structures and materials" 2017

29 Zhang, X., "Addition of conductive particles to improve the performance of activated carbon air-cathodes in microbial fuel cells" 3 (3): 806-810, 2017

30 Dong, H., "A novel structure of scalable air-cathode without Nafion and Pt by rolling activated carbon and PTFE as catalyst layer in microbial fuel cells" 46 (46): 5777-5787, 2012

31 Torres, C. I., "A kinetic perspective on extracellular electron transfer by anode-respiring bacteria" 34 (34): 3-17, 2009