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References (213)
-
Jayesh Sonawane, S. Patil, P. Ghosh, S. Adeloju (2018)
Low-cost stainless-steel wool anodes modified with polyaniline and polypyrrole for high-performance microbial fuel cellsJournal of Power Sources, 379
-
Guangyin Zhen, Xueqin Lu, Gopalakrishnan Kumar, P. Bakonyi, Kaiqin Xu, Youcai Zhao (2017)
Microbial electrolysis cell platform for simultaneous waste biorefinery and clean electrofuels generation: Current situation, challenges and future perspectivesProgress in Energy and Combustion Science, 63
-
S. Mohan, G. Mohanakrishna, G. Velvizhi, V. Babu, P. Sarma (2010)
Bio-catalyzed electrochemical treatment of real field dairy wastewater with simultaneous power generationBiochemical Engineering Journal, 51
-
Beena Balan, Sreekuttan Unni, Sreekumar Kurungot (2009)
Carbon nanofiber with selectively decorated Pt both on inner and outer walls as an efficient electrocatalyst for fuel cell applicationsJournal of Physical Chemistry C, 113
-
Xiaoshuang Yang, Xiaoxiao Ma, Kai Wang, Di Wu, Zhenchao Lei, C. Feng (2016)
Eighteen-month assessment of 3D graphene oxide aerogel-modified 3D graphite fiber brush electrode as a high-performance microbial fuel cell anodeElectrochimica Acta, 210
-
Xiayuan Wu, Fei Tong, Xiaoyu Yong, Jun Zhou, Lixiong Zhang, Honghua Jia, P. Wei (2016)
Effect of NaX zeolite-modified graphite felts on hexavalent chromium removal in biocathode microbial fuel cells.Journal of hazardous materials, 308
-
(2016)
11-lignin-derived carbon fibers, in lignin in polymer composites -
Emmanuel Fonseca, Kyoung-Yeol Kim, R. Rossi, B. Logan (2021)
Improving microbial electrolysis stability using flow-through brush electrodes and monitoring anode potentials relative to thermodynamic minimaInternational Journal of Hydrogen Energy, 46
-
Xi Chen, N. Yan (2014)
Novel Catalytic Systems to Convert Chitin and Lignin into Valuable ChemicalsCatalysis Surveys from Asia, 18
-
A. Elmekawy, S. Srikanth, Suman Bajracharya, Suman Bajracharya, Hanaa Hegab, P. Nigam, Ashutosh Singh, S. Mohan, D. Pant (2015)
Food and agricultural wastes as substrates for bioelectrochemical system (BES): The synchronized recovery of sustainable energy and waste treatmentFood Research International, 73
-
Ming-hua Zhou, Meiling Chi, Jianmei Luo, Huanhuan He, Tao Jin (2011)
An overview of electrode materials in microbial fuel cellsThe Lancet
-
C. Dong, I. Davies (2018)
Effect of stacking sequence on the flexural properties of carbon and glass fibre-reinforced hybrid compositesAdvanced Composites and Hybrid Materials, 1
-
K. Artyushkova, D. Roizman, C. Santoro, L. Doyle, Abeed Mohidin, P. Atanassov, E. Marsili (2016)
Anodic biofilms as the interphase for electroactive bacterial growth on carbon veil.Biointerphases, 11 3
-
Ayesha Kausar (2019)
Polyacrylonitrile-based nanocomposite fibers: A review of current developmentsJournal of Plastic Film & Sheeting, 35
-
M. Ghasemi, W. Daud, N. Mokhtarian, Alireza Mayahi, M. Ismail, F. Anisi, M. Sedighi, J. Alam (2013)
The effect of nitric acid, ethylenediamine, and diethanolamine modified polyaniline nanoparticles anode electrode in a microbial fuel cellInternational Journal of Hydrogen Energy, 38
-
Heyang Yuan, Zhen He (2015)
Graphene-modified electrodes for enhancing the performance of microbial fuel cells.Nanoscale, 7 16
-
Xin Li, Meihua Hu, L. Zeng, J. Xiong, Binhao Tang, Zhangmin Hu, L. Xing, Qiming Huang, Weishan Li (2019)
Co-modified MoO2 nanoparticles highly dispersed on N-doped carbon nanorods as anode electrocatalyst of microbial fuel cells.Biosensors & bioelectronics, 145
-
T. Lim, Moo Kim, S. Yeo, Euigyung Jeong (2019)
Preparation and evaluation of isotropic and mesophase pitch-based carbon fibers using the pelletizing and continuous spinning processJournal of Industrial Textiles, 48
-
B. Logan, D. Call, Shaoan Cheng, H. Hamelers, T. Sleutels, A. Jeremiasse, R. Rozendal (2008)
Microbial electrolysis cells for high yield hydrogen gas production from organic matter.Environmental science & technology, 42 23
-
Ki Kim, Young‐Jun Kim, Jae‐Hun Kim, Min‐Sik Park (2011)
The effects of surface modification on carbon felt electrodes for use in vanadium redox flow batteriesMaterials Chemistry and Physics, 131
-
A. Bhosale, R. Rengaswamy (2019)
Interfacial contact resistance in polymer electrolyte membrane fuel cells: Recent developments and challengesRenewable and Sustainable Energy Reviews
-
Jianxiao Yang, K. Nakabayashi, J. Miyawaki, Seong-Ho Yoon (2016)
Preparation of isotropic pitch-based carbon fiber using hyper coal through co-carbonation with ethylene bottom oilJournal of Industrial and Engineering Chemistry, 34
-
Yang Hou, Heyang Yuan, Z. Wen, S. Cui, Xiaoru Guo, Zhen He, Junhong Chen (2016)
Nitrogen-doped graphene/CoNi alloy encased within bamboo-like carbon nanotube hybrids as cathode catalysts in microbial fuel cellsJournal of Power Sources, 307
-
Shimaa Eissa, Khaled Al-Kattan, M. Zourob (2021)
Combination of Carbon Nanofiber-Based Electrochemical Biosensor and Cotton Fiber: A Device for the Detection of the Middle-East Respiratory Syndrome CoronavirusACS Omega, 6
-
Sidra Mohyudin, R. Farooq, Farhat Jubeen, T. Rasheed, M. Fatima, Farooq Sher (2021)
Microbial fuel cells a state-of-the-art technology for wastewater treatment and bioelectricity generation.Environmental research
-
A. Yaqoob, M. Ibrahim, S. Rodríguez-Couto (2020)
Development and modification of materials to build cost-effective anodes for microbial fuel cells (MFCs): An overviewBiochemical Engineering Journal, 164
-
Sen Wang, A. Lu, Lina Zhang (2016)
Recent advances in regenerated cellulose materialsProgress in Polymer Science, 53
-
J. Kadla, S. Kubo, R. Venditti, R. Gilbert, A. Compere, W. Griffith (2002)
Lignin-based carbon fibers for composite fiber applicationsCarbon, 40
-
Suman Bajracharya, S. Srikanth, G. Mohanakrishna, R. Zacharia, D. Strik, D. Pant (2017)
Biotransformation of carbon dioxide in bioelectrochemical systems: State of the art and future prospectsJournal of Power Sources, 356
-
E. Lebègue, S. Baranton, C. Coutanceau (2011)
Polyol synthesis of nanosized Pt/C electrocatalysts assisted by pulse microwave activationThe Lancet
-
Wei Fang, Sheng Yang, Xiluan Wang, T. Yuan, R. Sun (2017)
Manufacture and application of lignin-based carbon fibers (LCFs) and lignin-based carbon nanofibers (LCNFs)Green Chemistry, 19
-
M. Mashkour, M. Rahimnejad, S. Pourali, H. Ezoji, A. Elmekawy, D. Pant (2017)
Catalytic performance of nano-hybrid graphene and titanium dioxide modified cathodes fabricated with facile and green technique in microbial fuel cellProgress in Natural Science: Materials International, 27
-
A. Hermann, T. Chaudhuri, P. Spagnol (2005)
Bipolar plates for PEM fuel cells: A reviewInternational Journal of Hydrogen Energy, 30
-
Xuee Wu, F. Zhao, N. Rahunen, J. Varcoe, C. Avignone-Rossa, A. Thumser, R. Slade (2011)
A role for microbial palladium nanoparticles in extracellular electron transfer.Angewandte Chemie, 50 2
-
Kai‐Bo Pu, Jia Gao, Wen‐Fang Cai, Qingyun Chen, Kun Guo, Ye Huang, Shenghui Gao, Yun‐Hai Wang (2021)
A new modification method of metal substrates via candle soot to prepare effective anodes in air‐cathode microbial fuel cellsJournal of Chemical Technology & Biotechnology
-
E. Frank, Lisa Steudle, D. Ingildeev, Johanna Spörl, M. Buchmeiser (2014)
Carbon fibers: precursor systems, processing, structure, and properties.Angewandte Chemie, 53 21
-
Wei Guo, Yanrui Cui, Hong Song, Jianhui Sun (2014)
Layer-by-layer construction of graphene-based microbial fuel cell for improved power generation and methyl orange removalBioprocess and Biosystems Engineering, 37
-
Xiao-Qiu Lin, Zhi-Ling Li, Bin Liang, Jun Nan, Aijie Wang (2019)
Identification of biofilm formation and exoelectrogenic population structure and function with graphene/polyanliline modified anode in microbial fuel cell.Chemosphere, 219
-
Guodong Zhang, Q. Zhao, Y. Jiao, Jin Zhang, J. Jiang, N. Ren, Byung Kim, Byung Kim (2011)
Improved performance of microbial fuel cell using combination biocathode of graphite fiber brush and graphite granulesJournal of Power Sources, 196
-
B. Ge, Kexun Li, Z. Fu, L. Pu, X. Zhang, Ziqi Liu, Kan Huang (2016)
The performance of nano urchin-like NiCo 2 O 4 modified activated carbon as air cathode for microbial fuel cellJournal of Power Sources, 303
-
Yaqiong Wang, Bin Li, Dan Cui, X. Xiang, Weishan Li (2014)
Nano-molybdenum carbide/carbon nanotubes composite as bifunctional anode catalyst for high-performance Escherichia coli-based microbial fuel cell.Biosensors & bioelectronics, 51
-
Rong-Bin Song, Cui-e Zhao, Liping Jiang, E. Abdel-Halim, Jianrong Zhang, Jun‐Jie Zhu (2016)
Bacteria-Affinity 3D Macroporous Graphene/MWCNTs/Fe3O4 Foams for High-Performance Microbial Fuel Cells.ACS applied materials & interfaces, 8 25
-
D. Lovley, Kelly Nevin (2011)
A shift in the current: new applications and concepts for microbe-electrode electron exchange.Current opinion in biotechnology, 22 3
-
Erkan Doğru, E. Erhan, O. Arikan (2017)
The Using Capacity of Carbon Fiber Microelectrodes in DNA BiosensorsElectroanalysis, 29
-
A. Mehdinia, E. Ziaei, A. Jabbari (2014)
Facile microwave-assisted synthesized reduced graphene oxide/tin oxide nanocomposite and using as anode material of microbial fuel cell to improve power generationInternational Journal of Hydrogen Energy, 39
-
Xiao-xin Cao, Xia Huang, P. Liang, K. Xiao, Yingjun Zhou, Xiaoyuan Zhang, B. Logan (2009)
A new method for water desalination using microbial desalination cells.Environmental science & technology, 43 18
-
10.1016/B978-0-323-35565-0.00011-4
-
M. Mohammed, M. Desmulliez (2011)
Lab-on-a-chip based immunosensor principles and technologies for the detection of cardiac biomarkers: a review.Lab on a chip, 11 4
-
Gui Huang, Han Wang, H Zhao, Peng Wu, Q. Yan (2018)
Application of polypyrrole modified cathode in bio-electro-Fenton coupled with microbial desalination cell (MDC) for enhanced degradation of methylene blueJournal of Power Sources
-
M. Rahimnejad, A. Adhami, Soheil Darvari, Alireza Zirepour, Sang-Eun Oh (2015)
Microbial fuel cell as new technology for bioelectricity generation: A reviewalexandria engineering journal, 54
-
K. Rabaey, R. Rozendal (2010)
Microbial electrosynthesis — revisiting the electrical route for microbial productionNature Reviews Microbiology, 8
-
Ling Du, S. Jana (2007)
Highly conductive epoxy/graphite composites for bipolar plates in proton exchange membrane fuel cellsJournal of Power Sources, 172
-
J. Albo, M. Alvarez-Guerra, P. Castaño, Á. Irabien (2015)
Towards the electrochemical conversion of carbon dioxide into methanolGreen Chemistry, 17
-
Jayesh Sonawane, D. Pant, P. Ghosh, S. Adeloju (2019)
Fabrication of a Carbon Paper/Polyaniline-Copper Hybrid and Its Utilization as an Air Cathode for Microbial Fuel CellsACS Applied Energy Materials
-
H. Chou, Hui-Ju Lee, Chi-young Lee, N. Tai, Hwan-You Chang (2014)
Highly durable anodes of microbial fuel cells using a reduced graphene oxide/carbon nanotube-coated scaffold.Bioresource technology, 169
-
R. Aryal, D. Beltrán, Jia Liu (2019)
Effects of Ni nanoparticles, MWCNT, and MWCNT/Ni on the power production and the wastewater treatment of a microbial fuel cellInternational Journal of Green Energy, 16
-
A. Sumisha, K. Haribabu (2018)
Modification of graphite felt using nano polypyrrole and polythiophene for microbial fuel cell applications-a comparative studyInternational Journal of Hydrogen Energy, 43
-
Zhuang Li, Yong Yuan, Guiqin Yang, Shungui Zhou (2012)
In situ formation of graphene/biofilm composites for enhanced oxygen reduction in biocathode microbial fuel cellsElectrochemistry Communications, 21
-
H. Khayyam, R. Jazar, Srinivas Nunna, G. Golkarnarenji, K. Badii, S. Fakhrhoseini, Satish Kumar, M. Naebe (2020)
PAN precursor fabrication, applications and thermal stabilization process in carbon fiber production: Experimental and mathematical modellingProgress in Materials Science, 107
-
R. Tao, S. Zahertar, H. Torun, Yi Liu, Meng Wang, Yuchao Lu, Jingting Luo, Jethro Vernon, R. Binns, Yang He, K. Tao, Qiang Wu, H. Chang, Y. Fu (2020)
Flexible and Integrated Sensing Platform of Acoustic Waves and Metamaterials based on Polyimide-Coated Woven Carbon FibersACS Sensors, 5
-
Yan Zhang, Jian Xiao, Yimin Sun, Lu Wang, Xulin Dong, Jinghua Ren, Wenshan He, Fei Xiao (2018)
Flexible nanohybrid microelectrode based on carbon fiber wrapped by gold nanoparticles decorated nitrogen doped carbon nanotube arrays: In situ electrochemical detection in live cancer cells.Biosensors & bioelectronics, 100
-
Y. Komoda, K. Okabayashi, H. Nishimura, Masashi Hiromitsu, Takanori Oboshi, H. Usui (2009)
Dependence of polymer electrolyte fuel cell performance on preparation conditions of slurry for catalyst layersJournal of Power Sources, 193
-
Wenyi Wang, Yuanyuan Wang, Xueqin Wang, Bolong Jiang, Hua Song (2022)
Engineering Hollow Core-Shell N-C@Co/N-C Catalysts with Bits of Ni Doping Used as Efficient Electrocatalysts in Microbial Fuel Cells.ACS applied materials & interfaces
-
C. Feng, Zhisheng Lv, Xiaoshuang Yang, Chao-hai Wei (2014)
Anode modification with capacitive materials for a microbial fuel cell: an increase in transient power or stationary power.Physical chemistry chemical physics : PCCP, 16 22
-
T. Das, P. Ghosh, N. Das (2019)
Preparation, development, outcomes, and application versatility of carbon fiber-based polymer composites: a reviewAdvanced Composites and Hybrid Materials, 2
-
A. Anwer, M.D. Khan, N. Khan, A. Nizami, M. Rehan, M. Khan (2019)
Development of novel MnO2 coated carbon felt cathode for microbial electroreduction of CO2 to biofuels.Journal of environmental management, 249
-
Junfeng Chen, Yongyou Hu, Xiaojun Tan, L. Zhang, Wantang Huang, Jian Sun (2017)
Enhanced performance of microbial fuel cell with in situ preparing dual graphene modified bioelectrode.Bioresource technology, 241
-
T. Takanohashi, Takahiro Shishido, H. Kawashima, I. Saito (2008)
Characterisation of HyperCoals from coals of various ranksFuel, 87
-
Suman Bajracharya, Mohita Sharma, Mohita Sharma, G. Mohanakrishna, Xochitl Benneton, D. Strik, P. Sarma, D. Pant (2016)
An overview on emerging bioelectrochemical systems (BESs): Technology for sustainable electricity, waste remediation, resource recovery, chemical production and beyondRenewable Energy, 98
-
Bolong Liang, Chao Ren, Yubo Zhao, Kexun Li, Cuicui Lv (2020)
Nitrogenous mesoporous carbon coated with Co/Cu nanoparticles modified activated carbon as air cathode catalyst for microbial fuel cellJournal of Electroanalytical Chemistry, 860
-
Shihao Tian, Xiaoyue Yao, Tian-shun Song, Zhenyu Chu, Jingjing Xie, W. Jin (2020)
Artificial Electron Mediator with Nanocubic Architecture Highly Promotes Microbial Electrosynthesis from Carbon DioxideACS Sustainable Chemistry & Engineering, 8
-
M. San-Martín, A. Escapa, Raúl Alonso, M. Canle, A. Morán (2020)
Degradation of 2-mercaptobenzothizaole in microbial electrolysis cells: Intermediates, toxicity, and microbial communities.The Science of the total environment, 733
-
G. Golkarnarenji, M. Naebe, K. Badii, A. Milani, R. Jazar, H. Khayyam (2018)
Support vector regression modelling and optimization of energy consumption in carbon fiber production lineComput. Chem. Eng., 109
-
A. Hasan, Md Nurunnabi, M. Morshed, A. Paul, A. Polini, Tapas Kuila, Moustafa Hariri, Yong-kyu Lee, A. Jaffa (2014)
Recent Advances in Application of Biosensors in Tissue EngineeringBioMed Research International, 2014
-
Junfeng Chen, Yongyou Hu, Wantang Huang, Lihua Zhang (2017)
Enhanced electricity generation for biocathode microbial fuel cell by in situ microbial-induced reduction of graphene oxide and polarity reversionInternational Journal of Hydrogen Energy, 42
-
Shiyu Liu, Rongchang Wang, Cuixiang Ma, Dianhai Yang, Duanxing Li, Z. Lewandowski (2020)
Improvement of electrochemical performance via enhanced reactive oxygen species adsorption at ZnO–NiO@rGO carbon felt cathodes in photosynthetic algal microbial fuel cellsChemical Engineering Journal, 391
-
D. Gerteisen, C. Sadeler (2010)
Stability and performance improvement of a polymer electrolyte membrane fuel cell stack by laser perforation of gas diffusion layersJournal of Power Sources, 195
-
Mengxiao Chen, Zhe Wang, Kaiwei Li, Xiandi Wang, Lei Wei (2021)
Elastic and Stretchable Functional Fibers: A Review of Materials, Fabrication Methods, and ApplicationsAdvanced Fiber Materials
-
E. Sayed, H. Alawadhi, A. Olabi, A. Jamal, Menna Almahdi, Juiaria Khalid, M. Abdelkareem (2020)
Electrophoretic deposition of graphene oxide on carbon brush as bioanode for microbial fuel cell operated with real wastewaterInternational Journal of Hydrogen Energy
-
Jia Liu, Fang Zhang, Weihua He, Xiaoyuan Zhang, Yujie Feng, B. Logan (2014)
Intermittent contact of fluidized anode particles containing exoelectrogenic biofilms for continuous power generation in microbial fuel cellsJournal of Power Sources, 261
-
Serge Mbokou, I. Tonle, M. Pontie (2017)
Development of a novel hybrid biofuel cell type APAP/O2 based on a fungal bioanode with a Scedosporium dehoogii biofilmJournal of Applied Electrochemistry, 47
-
Yuan Liu, Hong Liu, Chuanshui Wang, Shuang-Xia Hou, Nuan Yang (2013)
Sustainable energy recovery in wastewater treatment by microbial fuel cells: stable power generation with nitrogen-doped graphene cathode.Environmental science & technology, 47 23
-
Yang Tian, L. Mao, T. Okajima, T. Ohsaka (2005)
A carbon fiber microelectrode-based third-generation biosensor for superoxide anion.Biosensors & bioelectronics, 21 4
-
Chong Ye, Huang Wu, Dong Huang, Baoliu Li, Keya Shen, Jianxiao Yang, Jin‐shui Liu, Xuanke Li (2019)
The microstructures and mechanical properties of ultra-high-strength PAN-based carbon fibers during graphitization under a constant stretchingCarbon Letters
-
Shaoan Cheng, Hong Liu, B. Logan (2006)
Power densities using different cathode catalysts (Pt and CoTMPP) and polymer binders (nafion and PTFE) in single chamber microbial fuel cells.Environmental science & technology, 40 1
-
Zheng Jili, Cheng Chuanxiao, Jun Zhang, Wu Xuehong (2016)
Appropriate mechanical strength of carbon black-decorated loofah sponge as anode material in microbial fuel cellsInternational Journal of Hydrogen Energy, 41
-
Xianwei Liu, Wen‐Wei Li, Hanqing Yu (2014)
Cathodic catalysts in bioelectrochemical systems for energy recovery from wastewater.Chemical Society reviews, 43 22
-
Guangyin Zhen, Takurou Kobayashi, Xueqin Lu, Kaiqin Xu (2015)
Understanding methane bioelectrosynthesis from carbon dioxide in a two-chamber microbial electrolysis cells (MECs) containing a carbon biocathode.Bioresource technology, 186
-
Felipe Souto, V. Calado, N. Pereira (2018)
Lignin-based carbon fiber: a current overviewMaterials Research Express, 5
-
Junxian Hou, Zhongliang Liu, Siqi Yang, Yu Zhou (2014)
Three-dimensional macroporous anodes based on stainless steel fiber felt for high-performance microbial fuel cellsJournal of Power Sources, 258
-
Qiaoyun Wu, Yunzhe Zhang, Qian Yang, Ningjing Yuan, Wei Zhang (2019)
Review of Electrochemical DNA Biosensors for Detecting Food Borne PathogensSensors (Basel, Switzerland), 19
-
Kelly Nevin, T. Woodard, A. Franks, Z. Summers, D. Lovley (2010)
Microbial Electrosynthesis: Feeding Microbes Electricity To Convert Carbon Dioxide and Water to Multicarbon Extracellular Organic CompoundsmBio, 1
-
Nabin Aryal, Arnab Halder, Pier-Luc Tremblay, Q. Chi, Tian Zhang (2016)
Enhanced microbial electrosynthesis with three-dimensional graphene functionalized cathodes fabricated via solvothermal synthesisElectrochimica Acta, 217
-
K. Shirvanimoghaddam, Salah Hamim, Mohammad Akbari, S. Fakhrhoseini, H. Khayyam, A. Pakseresht, E. Ghasali, M. Zabet, K. Munir, S. Jia, J. Davim, M. Naebe (2017)
Carbon fiber reinforced metal matrix composites: Fabrication processes and propertiesComposites Part A-applied Science and Manufacturing, 92
-
E. Kimball, J. Benziger, Y. Kevrekidis (2010)
Effects of GDL Structure with an Efficient Approach to the Management of Liquid water in PEM Fuel CellsFuel Cells, 10
-
Guangyin Zhen, Xueqin Lu, Takurou Kobayashi, Gopalakrishnan Kumar, Kaiqin Xu (2016)
Promoted electromethanosynthesis in a two-chamber microbial electrolysis cells (MECs) containing a hybrid biocathode covered with graphite felt (GF)Chemical Engineering Journal, 284
-
S. Joo, H. Lee, D. You, Kyungjung Kwon, Jin Kim, Y. Choi, M. Kang, Ji Kim, C. Pak, Hyuk Chang, D. Seung (2008)
Ordered mesoporous carbons with controlled particle sizes as catalyst supports for direct methanol fuel cell cathodesCarbon, 46
-
Y. Fu, Z. Liu, G. Su, X. Zai, M. Ying, J. Yu (2016)
Modified Carbon Anode by MWCNTs/PANI Used in Marine Sediment Microbial Fuel Cell and its Electrochemical PerformanceFuel Cells, 16
-
Cijo Mathew, Samsudeen Mohamed, L. Devanathan (2022)
A comprehensive review of current research on various materials used for developing composite bipolar plates in polymer electrolyte membrane fuel cellsPolymer Composites
-
C. Santoro, P. Bollella, B. Erable, P. Atanassov, D. Pant (2022)
Oxygen reduction reaction electrocatalysis in neutral media for bioelectrochemical systemsNature Catalysis, 5
-
Azam Oroumei, M. Naebe (2017)
Mechanical property optimization of wet-spun lignin/polyacrylonitrile carbon fiber precursor by response surface methodologyFibers and Polymers, 18
-
H. Khayyam, M. Naebe, A. Bab-Hadiashar, F. Jamshidi, Quanxiang Li, Stephen Atkiss, Derek Buckmaster, B. Fox (2015)
Stochastic optimization models for energy management in carbonization process of carbon fiber productionApplied Energy, 158
-
Srinivas Nunna, M. Naebe, N. Hameed, B. Fox, C. Creighton (2017)
Evolution of radial heterogeneity in polyacrylonitrile fibres during thermal stabilization: An overviewPolymer Degradation and Stability, 136
-
Q. Dong, M. Mench, S. Cleghorn, U. Beuscher (2005)
Distributed Performance of Polymer Electrolyte Fuel Cells under Low-Humidity ConditionsJournal of The Electrochemical Society, 152
-
M. Mahmoud, César Torres, B. Rittmann (2017)
Changes in Glucose Fermentation Pathways as a Response to the Free Ammonia Concentration in Microbial Electrolysis Cells.Environmental science & technology, 51 22
-
Audrey Sassolas, L. Blum, B. Leca-Bouvier (2012)
Immobilization strategies to develop enzymatic biosensors.Biotechnology advances, 30 3
-
Daohao Li, Xiaojing Long, Yaqian Wu, Huijie Hou, Xueyao Wang, Jun Ren, Lijie Zhang, Dongjiang Yang, Yanzhi Xia (2022)
Hierarchically Porous and Defective Carbon Fiber Cathode for Efficient Zn-Air Batteries and Microbial Fuel CellsAdvanced Fiber Materials, 4
-
J. Lim, Dongyoung Lee, Minkook Kim, Jaeheon Choe, S. Nam, D. Lee (2015)
Composite structures for proton exchange membrane fuel cells (PEMFC) and energy storage systems (ESS): ReviewComposite Structures, 134
-
Melis Asal, Özlem Özen, Mert Sahinler, Ilker Polatoğlu (2018)
Recent Developments in Enzyme, DNA and Immuno-Based BiosensorsSensors (Basel, Switzerland), 18
-
Y. Yu, C. Jiang, X.T. Zheng, Y. Liu, W. Goh, R.H.H. Lim, Shuqin Tan, L. Yang (2022)
Three-dimensional highway-like graphite flakes/carbon fiber hybrid electrode for electrochemical biosensorMaterials Today Advances
-
H. Khayyam, S. Fakhrhoseini, J. Church, A. Milani, A. Bab-Hadiashar, R. Jazar, M. Naebe (2017)
Predictive modelling and optimization of carbon fiber mechanical properties through high temperature furnaceApplied Thermal Engineering, 125
-
A. Elmekawy, Hanaa Hegab, K. Vanbroekhoven, D. Pant (2014)
Techno-productive potential of photosynthetic microbial fuel cells through different configurationsRenewable & Sustainable Energy Reviews, 39
-
Shen Chunhui, P. Mu, Yuan Qin, Y. Runzhang (2006)
Studies on Preparation and Performance of Sodium Silicate/Graphite Conductive CompositesJournal of Composite Materials, 40
-
Jianhua Huang, D. Baird, J. Mcgrath (2005)
Development of fuel cell bipolar plates from graphite filled wet-lay thermoplastic composite materialsJournal of Power Sources, 150
-
Xinwen Peng, Shuiliang Chen, Lang Liu, Suqi Zheng, M. Li (2016)
Modified stainless steel for high performance and stable anode in microbial fuel cellsElectrochimica Acta, 194
-
Geetanjali, R. Rani, D. Sharma, Sanjay Kumar (2019)
Optimization of operating conditions of miniaturize single chambered microbial fuel cell using NiWO4/graphene oxide modified anode for performance improvement and microbial communities dynamics.Bioresource technology, 285
-
S. G, D. A, E. N (2009)
Direct Biological Conversion of Electrical Current into Methane by Electromethanogenesis -
Priyanka Gupta, N. Verma (2022)
Conversion of CO2 to Formate using Activated Carbon Fiber-supported g-C3N4-NiCoWO4 Photoanode in a Microbial Electrosynthesis SystemChemical Engineering Journal
-
Syed Abbas, M. Rafatullah, Norli Ismail, R. Nastro (2017)
Enhanced bioremediation of toxic metals and harvesting electricity through sediment microbial fuel cellInternational Journal of Energy Research, 41
-
Xiaoye Xing, Zhongliang Liu, Wenwen Chen, Xiaoge Lou, Yanxia Li, Q. Liao (2020)
Self-Nitrogen-Doped Carbon Nanosheets Modification of Anodes for Improving Microbial Fuel Cells’ PerformanceCatalysts
-
Jiawei Yang, Shaoan Cheng, Yi Sun, Chaochao Li (2017)
Improving the power generation of microbial fuel cells by modifying the anode with single-wall carbon nanohornsBiotechnology Letters, 39
-
Weikang Wang, Bo Tang, Jian Liu, Huijie Shi, Qunjie Xu, Guohua Zhao (2019)
Self-supported microbial carbon aerogel bioelectrocatalytic anode promoting extracellular electron transfer for efficient hydrogen evolutionElectrochimica Acta
-
Yu-Xi Huang, Xianwei Liu, Xue-Fei Sun, Guo-ping Sheng, Yuanyuan Zhang, Guomin Yan, Shu-Guang Wang, A. Xu, Hanqing Yu (2011)
A new cathodic electrode deposit with palladium nanoparticles for cost-effective hydrogen productionFuel and Energy Abstracts
-
J. Okolie, S. Nanda, A. Dalai, J. Kozinski (2020)
Chemistry and Specialty Industrial Applications of Lignocellulosic BiomassWaste and Biomass Valorization
-
Rui Ferreira, D. Falcão, V. Oliveira, A. Pinto (2017)
Experimental study on the membrane electrode assembly of a proton exchange membrane fuel cell: effects of microporous layer, membrane thickness and gas diffusion layer hydrophobic treatmentElectrochimica Acta, 224
-
S. Andersen, Maryam Borghei, Peter Lund, Yli-Rantala Elina, A. Pasanen, E. Kauppinen, V. Ruiz, P. Kauranen, E. Skou (2013)
Durability of carbon nanofiber (CNF) & carbon nanotube (CNT) as catalyst support for Proton Exchange Membrane Fuel CellsSolid State Ionics, 231
-
C. Chatard, A. Sabac, Laura Moreno-Velasquez, Anne Meiller, S. Marinesco (2018)
Minimally Invasive Microelectrode Biosensors Based on Platinized Carbon Fibers for in Vivo Brain MonitoringACS Central Science, 4
-
Yezhen Zhang, Guangquan Mo, Xuwen Li, Wei‐De Zhang, Jiaqi Zhang, Jianshan Ye, Xiaodan Huang, Chengzhong Yu (2011)
A graphene modified anode to improve the performance of microbial fuel cellsThe Lancet
-
Xiao-Yang Zhang, Jiajing Xu, Jing-Yuan Wu, Feng Shan, Xiao-dan Ma, Yu-Zhang Chen, Qiu-yi Zhang (2017)
Seeds triggered massive synthesis and multi-step room temperature post-processing of silver nanoink—application for paper electronicsRSC Advances, 7
-
Lihua Huang, Xiufen Li, Ren Yueping, Xinhua Wang (2016)
In-situ modified carbon cloth with polyaniline/graphene as anode to enhance performance of microbial fuel cellInternational Journal of Hydrogen Energy, 41
-
V. Poursorkhabi, Mohamed Abdelwahab, M. Misra, H. Khalil, Bahram Gharabaghi, A. Mohanty (2020)
Processing, Carbonization, and Characterization of Lignin Based Electrospun Carbon Fibers: A Review, 8
-
A. Pareek, J. Sravan, S. Mohan (2019)
Graphene modified electrodes for bioelectricity generation in mediator-less microbial fuel cellJournal of Materials Science, 54
-
Q. Wen, Huichao Zhang, Zhi-qiang Chen, Yu-fei Li, Jun Nan, Yujie Feng (2012)
Using bacterial catalyst in the cathode of microbial desalination cell to improve wastewater treatment and desalination.Bioresource technology, 125
-
J. You, C. Santoro, J. Greenman, C. Melhuish, P. Cristiani, Baikun Li, I. Ieropoulos (2014)
Micro-porous layer (MPL)-based anode for microbial fuel cellsInternational Journal of Hydrogen Energy, 39
-
Yue Du, Yujie Feng, Youpeng Qu, Jia Liu, N. Ren, Hong Liu (2014)
Electricity generation and pollutant degradation using a novel biocathode coupled photoelectrochemical cell.Environmental science & technology, 48 13
-
Sizhe Li, Yongyou Hu, Qian Xu, Jian Sun, B. Hou, Yaping Zhang (2012)
Iron- and nitrogen-functionalized graphene as a non-precious metal catalyst for enhanced oxygen reduction in an air-cathode microbial fuel cellJournal of Power Sources, 213
-
Kai‐Bo Pu, Chuan Lu, Kai Zhang, He Zhang, Qingyun Chen, Yun‐Hai Wang (2019)
In situ synthesis of polypyrrole on graphite felt as bio-anode to enhance the start-up performance of microbial fuel cellsBioprocess and Biosystems Engineering, 43
-
S. Freguia, Bernardino Virdis, F. Harnisch, J. Keller (2012)
Bioelectrochemical systems: Microbial versus enzymatic catalysisElectrochimica Acta, 82
-
Fangzhou Zhang, Jun Chen, Jianping Yang (2022)
Fiber Materials for Electrocatalysis ApplicationsAdvanced Fiber Materials, 4
-
Srinivas Nunna, C. Creighton, N. Hameed, M. Naebe, L. Henderson, Mohan Setty, B. Fox (2017)
Radial structure and property relationship in the thermal stabilization of PAN precursor fibresPolymer Testing, 59
-
Jincheng Wei, P. Liang, Xia Huang (2011)
Recent progress in electrodes for microbial fuel cells.Bioresource technology, 102 20
-
Avijit Ghosh, P. Goswami, P. Mahanta, Anil Verma (2014)
Effect of carbon fiber length and graphene on carbon-polymer composite bipolar plate for PEMFCJournal of Solid State Electrochemistry, 18
-
Jie Wang, Bin Li, Shuping Wang, T. Liu, Boyu Jia, Weizhen Liu, Peng Dong (2022)
Metal-organic framework-derived iron oxide modified carbon cloth as a high-power density microbial fuel cell anodeJournal of Cleaner Production
-
Fei Yu, Chengxian Wang, Jie Ma (2016)
Applications of Graphene-Modified Electrodes in Microbial Fuel CellsMaterials, 9
-
Suqin Ci, Z. Wen, Junhong Chen, Zhen He (2012)
Decorating anode with bamboo-like nitrogen-doped carbon nanotubes for microbial fuel cellsElectrochemistry Communications, 14
-
Y. Hindatu, M. Annuar, A. Gumel (2017)
Mini-review: Anode modification for improved performance of microbial fuel cellRenewable & Sustainable Energy Reviews, 73
-
Shijia Wu, Weihua He, Wulin Yang, Yaoli Ye, Xia Huang, B. Logan (2017)
Combined carbon mesh and small graphite fiber brush anodes to enhance and stabilize power generation in microbial fuel cells treating domestic wastewaterJournal of Power Sources, 356
-
Xinmin Liu, Yanjie Niu, Lingyun Wang, Qingjie Guo (2020)
Treatment of m-Cresol Wastewater in an Anaerobic Fluidized Bed Microbial Fuel Cell Equipped with Different Modified Carbon Cloth CathodesEnergy & Fuels, 34
-
E. Sallam, H. Khairy, M. Elnouby, H. Fetouh (2021)
Sustainable electricity production from seawater using Spirulina platensis microbial fuel cell catalyzed by silver nanoparticles-activated carbon composite prepared by a new modified photolysis methodBiomass & Bioenergy, 148
-
A. Al-Mamun, W. Ahmad, M. Baawain, M. Khadem, B. Dhar (2018)
A review of microbial desalination cell technology: Configurations, optimization and applicationsJournal of Cleaner Production, 183
-
J. Kim, Shaoan Cheng, Sang-Eun Oh, B. Logan (2007)
Power generation using different cation, anion, and ultrafiltration membranes in microbial fuel cells.Environmental science & technology, 41 3
-
A. Dér, Nikolas Dilger, Alexander Kaluza, C. Creighton, S. Kara, R. Varley, C. Herrmann, S. Thiede (2021)
Modelling and analysis of the energy intensity in polyacrylonitrile (PAN) precursor and carbon fibre manufacturingJournal of Cleaner Production
-
Publisher's Note Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations -
S. Patil, Sylvia Gildemyn, D. Pant, K. Zengler, B. Logan, K. Rabaey (2015)
A logical data representation framework for electricity-driven bioproduction processes.Biotechnology advances, 33 6 Pt 1
-
Cui-e Zhao, Panpan Gai, Rong-Bin Song, Jianrong Zhang, Jun‐Jie Zhu (2015)
Graphene/Au composites as an anode modifier for improving electricity generation in Shewanella-inoculated microbial fuel cellsAnalytical Methods, 7
-
Jiahuan Tang, Yong Yuan, Tinglin Liu, Shungui Zhou (2015)
High-capacity carbon-coated titanium dioxide core–shell nanoparticles modified three dimensional anodes for improved energy output in microbial fuel cellsJournal of Power Sources, 274
-
S. Kalathil, Jintae Lee, M. Cho (2013)
Gold nanoparticles produced in situ mediate bioelectricity and hydrogen production in a microbial fuel cell by quantized capacitance charging.ChemSusChem, 6 2
-
M. Baraton (2009)
Sensors for Environment, Health and Security -
Junfeng Chen, Lihua Zhang, Yongyou Hu, Wantang Huang, Zhuyu Niu, Jian Sun (2017)
Bacterial community shift and incurred performance in response to in situ microbial self-assembly graphene and polarity reversion in microbial fuel cell.Bioresource technology, 241
-
Jinli Qiao, Yuyu Liu, Feng Hong, Jiujun Zhang (2014)
A review of catalysts for the electroreduction of carbon dioxide to produce low-carbon fuels.Chemical Society reviews, 43 2
-
Zongbao Chen, Minghua Lu (2018)
Thionine-coordinated BCN nanosheets for electrochemical enzyme immunoassay of lipocalin-2 on biofunctionalized carbon-fiber microelectrodeSensors and Actuators B: Chemical
-
V. Ramani, S. Swier, M. Shaw, R. Weiss, H. Kunz, J. Fenton (2008)
Membranes and MEAs Based on Sulfonated Poly(ether ketone ketone) and Heteropolyacids for Polymer Electrolyte Fuel CellsJournal of The Electrochemical Society, 155
-
Yong Luo, Fang Zhang, Bin Wei, Guangli Liu, Renduo Zhang, B. Logan (2011)
Power generation using carbon mesh cathodes with different diffusion layers in microbial fuel cellsThe Lancet
-
D. Baker, T. Rials (2013)
Recent advances in low‐cost carbon fiber manufacture from ligninJournal of Applied Polymer Science, 130
-
Qing Wen, Shaoyun Wang, Jun Yan, L. Cong, Zhongcheng Pan, Yueming Ren, Zhuangjun Fan (2012)
MnO2–graphene hybrid as an alternative cathodic catalyst to platinum in microbial fuel cellsJournal of Power Sources, 216
-
C. Shen, M. Pan, Zhoufa Hua, R. Yuan (2007)
Aluminate cement/graphite conductive composite bipolar plate for proton exchange membrane fuel cellsJournal of Power Sources, 166
-
Zhang Wenrui, Meng Fanxing, Qin Yanan, Chen Fei, Yue Haitao, Zhang Minwei (2020)
Fabrication and Specific Functionalisation of Carbon Fibers for Advanced Flexible BiosensorsFrontiers in Chemistry, 8
-
Abudukeremu Kadier, M. Kalil, P. Abdeshahian, K. Chandrasekhar, A. Mohamed, N. Azman, Washington Logroño, Yibadatihan Simayi, A. Hamid (2016)
Recent advances and emerging challenges in microbial electrolysis cells (MECs) for microbial production of hydrogen and value-added chemicalsRenewable & Sustainable Energy Reviews, 61
-
Yanxi Zhu, Jianyu Ji, Jiaoyu Ren, Chong Yao, L. Ge (2014)
Conductive multilayered polyelectrolyte films improved performance in microbial fuel cells (MFCs)Colloids and Surfaces A: Physicochemical and Engineering Aspects, 455
-
Qinwen Xu, Hao Yuan, Xulin Dong, Yan Zhang, M. Asif, Z. Dong, Wenshan He, Jinghua Ren, Yimin Sun, Fei Xiao (2018)
Dual nanoenzyme modified microelectrode based on carbon fiber coated with AuPd alloy nanoparticles decorated graphene quantum dots assembly for electrochemical detection in clinic cancer samples.Biosensors & bioelectronics, 107
-
Hyunchul Ahn, S. Yeo, Byoung-Sun Lee (2021)
Designing Materials and Processes for Strong Polyacrylonitrile Precursor FibersPolymers, 13
-
Rui Li, Ying Dai, Baibing Chen, Jinlong Zou, Baojiang Jiang, H. Fu (2016)
Nitrogen-doped Co/Co 9 S 8 /partly-graphitized carbon as durable catalysts for oxygen reduction in microbial fuel cellsJournal of Power Sources, 307
-
Mengjie Fan, Wei Zhang, Jin Sun, Liuliu Chen, Peiwen Li, Yingwen Chen, Zhu Shemin, Shen Shubao (2017)
Different modified multi-walled carbon nanotube–based anodes to improve the performance of microbial fuel cellsInternational Journal of Hydrogen Energy, 42
-
E. Frank, D. Ingildeev, M. Buchmeiser (2017)
High-performance PAN-based carbon fibers and their performance requirements -
Young‐Sang Youn, Sehun Kim (2016)
Real-time atomic force microscopy imaging of collagen fibril under ultraviolet irradiationJournal of Industrial and Engineering Chemistry, 42
-
Laure Lapinsonnière, M. Picot, C. Poriel, F. Barrière (2013)
Phenylboronic Acid Modified Anodes Promote Faster Biofilm Adhesion and Increase Microbial Fuel Cell PerformancesElectroanalysis, 25
-
Yong Yuan, Shungui Zhou, Bo Zhao, Zhuang Li, Yue-qiang Wang (2012)
Microbially-reduced graphene scaffolds to facilitate extracellular electron transfer in microbial fuel cells.Bioresource technology, 116
-
Hongjun Ni, Kaixuan Wang, Shuaishuai Lv, Xingxing Wang, Jiaqiao Zhang, Zhuojian Lu, Fei Li (2020)
Effects of Modified Anodes on the Performance and Microbial Community of Microbial Fuel Cells Using Swine WastewaterEnergies, 13
-
S. Fakhrhoseini, H. Khayyam, M. Naebe (2018)
Chemically Enhanced Wet‐Spinning Process to Accelerate Thermal Stabilization of Polyacrylonitrile FibersMacromolecular Materials and Engineering, 303
-
FabricationMethods, ShahramKarimi, Norman Fraser, B. Roberts, F. Foulkes (2012)
A Review of Metallic Bipolar Plates for Proton Exchange Membrane Fuel Cells: Materials and Fabrication MethodsAdvances in Materials Science and Engineering, 2012
-
S. Aldosari, M. Khan, S. Rahatekar (2020)
Manufacturing carbon fibres from pitch and polyethylene blend precursors: a reviewJournal of Materials Research and Technology
-
Zi-bo Wang, Shi-Chang Xiong, Yujiang Guan, Xueqiang Zhu (2016)
Synthesization of SnO2-modified carbon nanotubes and their application in microbial fuel cellApplied Physics A, 122
-
Wan‐Lun Li, Jian Sun, Yongyou Hu, Yaping Zhang, Feng Deng, Jie Chen (2014)
Simultaneous pH self-neutralization and bioelectricity generation in a dual bioelectrode microbial fuel cell under periodic reversion of polarityJournal of Power Sources, 268
-
Bo Wang, Ximiao Wen, P. Chiou, N. Maidment (2019)
Pt Nanoparticle‐modified Carbon Fiber Microelectrode for Selective Electrochemical Sensing of Hydrogen PeroxideElectroanalysis
-
Farook Ahmad, Andreas Christenson, Martina Bainbridge, A. Yusof, S. Ghani (2007)
Minimizing tissue-material interaction in microsensor for subcutaneous glucose monitoring.Biosensors & bioelectronics, 22 8
-
Hongqiang Hu, Yanzhen Fan, Hong Liu (2009)
Hydrogen production in single-chamber tubular microbial electrolysis cells using non-precious-metal catalystsInternational Journal of Hydrogen Energy, 34
-
B. Logan, K. Rabaey (2012)
Conversion of Wastes into Bioelectricity and Chemicals by Using Microbial Electrochemical TechnologiesScience, 337
-
Euntae Yang, Mi-Jin Choi, Kyoung-Yeol Kim, K. Chae, In Kim (2015)
Effect of initial salt concentrations on cell performance and distribution of internal resistance in microbial desalination cellsEnvironmental Technology, 36
-
H. Cui, Y. Qian, Hao An, Chencheng Sun, J. Zhai, Q. Li (2012)
Electrochemical removal of fluoride from water by PAOA-modified carbon felt electrodes in a continuous flow reactor.Water research, 46 12
-
Tian Zhang, Huarong Nie, Timothy Bain, Haiyun Lu, Mengmeng Cui, O. Snoeyenbos-West, A. Franks, Kelly Nevin, T. Russell, D. Lovley (2013)
Improved cathode materials for microbial electrosynthesisEnergy and Environmental Science, 6
-
Shiv Singh, Amol Pophali, R. Omar, R. Kumar, Pradip Kumar, D. Mondal, D. Pant, N. Verma (2021)
A nickel oxide-decorated in situ grown 3-D graphitic forest engrained carbon foam electrode for microbial fuel cells.Chemical communications
-
Qixing Zhou, Dandan Li, Tong Wang, Xiangang Hu (2020)
Leaching of graphene oxide nanosheets in simulated soil and their influences on microbial communities.Journal of hazardous materials, 404 Pt A
-
Thi Le, M. Bechelany, M. Cretin (2017)
Carbon felt based-electrodes for energy and environmental applications: A reviewCarbon, 122
-
Yaodong Liu, Satish Kumar (2012)
Recent Progress in Fabrication, Structure, and Properties of Carbon FibersPolymer Reviews, 52
-
Ji-Hyun Kim, Seho Cho, T. Bae, Young-Seak Lee (2014)
Enzyme biosensor based on an N-doped activated carbon fiber electrode prepared by a thermal solid-state reactionSensors and Actuators B-chemical, 197
-
Lin Fu, Haoqi Wang, Qiong Huang, Tian-shun Song, Jingjing Xie (2019)
Modification of carbon felt anode with graphene/Fe2O3 composite for enhancing the performance of microbial fuel cellBioprocess and Biosystems Engineering, 43
-
E. Easton, T. Astill, S. Holdcroft (2005)
Properties of Gas Diffusion Electrodes Containing Sulfonated Poly(ether ether ketone)Journal of The Electrochemical Society, 152
-
J. Champavert, S. Rejeb, C. Innocent, M. Pontie (2015)
Microbial fuel cell based on Ni-tetra sulfonated phthalocyanine cathode and graphene modified bioanodeJournal of Electroanalytical Chemistry, 757
-
A. Ozden, Samaneh Shahgaldi, Xianguo Li, F. Hamdullahpur (2019)
A review of gas diffusion layers for proton exchange membrane fuel cells—With a focus on characteristics, characterization techniques, materials and designsProgress in Energy and Combustion Science
-
N. Lewis, D. Nocera (2006)
Powering the planet: Chemical challenges in solar energy utilizationProceedings of the National Academy of Sciences, 103
-
Anoop Singh, S. Sevda, I. Reesh, K. Vanbroekhoven, Dheeraj Rathore, D. Pant (2015)
Biohydrogen Production from Lignocellulosic Biomass: Technology and SustainabilityEnergies, 8
-
Shici Zhang, Xizhong Bao, Fangchao Wan, Yuanyuan Xie, Qi Liu, Boxun Zhou, S. Xia (2018)
Application of loofah sponge three-dimensional cage-shape activated carbon fiber with high strength in an air-cathode microbial fuel cellJournal of Renewable and Sustainable Energy
-
Yaping Zhang, Jian Sun, B. Hou, Yongyou Hu (2011)
Performance improvement of air-cathode single-chamber microbial fuel cell using a mesoporous carbonThe Lancet
-
C. Santoro, C. Arbizzani, B. Erable, I. Ieropoulos (2017)
Microbial fuel cells: From fundamentals to applications. A reviewJournal of Power Sources, 356
-
Yangyang Yu, C. Guo, Yang‐Chun Yong, C. Li, Hao Song (2015)
Nitrogen doped carbon nanoparticles enhanced extracellular electron transfer for high-performance microbial fuel cells anode.Chemosphere, 140
-
Shaohong Yang, Feifei Zhang, Zonghua Wang, Qiong-lin Liang (2018)
A graphene oxide-based label-free electrochemical aptasensor for the detection of alpha-fetoprotein.Biosensors & bioelectronics, 112
-
Haoshuang Zhang, Yubin Fu, Changyan Zhou, Shuang Liu, Ming-xin Zhao, Tonglai Chen, X. Zai (2018)
A novel anode modified by 1,5‐dihydroxyanthraquinone/multiwalled carbon nanotubes composite in marine sediment microbial fuel cell and its electrochemical performanceInternational Journal of Energy Research, 42
-
F. Alatraktchi, Yifeng Zhang, I. Angelidaki (2014)
Nanomodification of the electrodes in microbial fuel cell: Impact of nanoparticle density on electricity production and microbial communityApplied Energy, 116
-
F. Zaragoza-Martín, D. Sopeña-Escario, E. Morallón, C. Lecea (2007)
Pt/carbon nanofibers electrocatalysts for fuel cells: effect of the support oxidizing treatmentJournal of Power Sources, 171
-
Ren Yueping, D. Pan, Xiufen Li, F. Fu, Yanan Zhao, Xinhua Wang (2013)
Effect of polyaniline‐graphene nanosheets modified cathode on the performance of sediment microbial fuel cellJournal of Chemical Technology & Biotechnology, 88
-
Nuria Montpart, Laura Rago, J. Baeza, A. Guisasola (2015)
Hydrogen production in single chamber microbial electrolysis cells with different complex substrates.Water research, 68
-
P. Tomani
The Lignoboost Process -
G. kumar, Z. Awan, Kee Nahm, J. Xavier (2014)
Nanotubular MnO2/graphene oxide composites for the application of open air-breathing cathode microbial fuel cells.Biosensors & bioelectronics, 53
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Abstract
Carbon fibers (CFs) demonstrate a range of excellent properties including (but not limited to) microscale diameter, high hardness, high strength, light weight, high chemical resistance, and high temperature resistance. Therefore, it is necessary to summarize the application market of CFs. CFs with good physical and chemical properties stand out among many materials. It is believed that highly fibrotic CFs will play a crucial role. This review first introduces the precursors of CFs, such as polyacrylonitrile, bitumen, and lignin. Then this review introduces CFs used in BESs, such as electrode materials and modification strategies of MFC, MEC, MDC, and other cells in a large space. Then, CFs in biosensors including enzyme sensor, DNA sensor, immune sensor and implantable sensor are summarized. Finally, we discuss briefly the challenges and research directions of CFs application in BESs, biosensors and more fields.HighlightsCF is a new-generation reinforced fiber with high hardness and strength.Summary precursors from different sources of CFs and their preparation processes.Introduction of the application and modification methods of CFs in BESs and biosensor.Suggest the challenges in the application of CFs in the field of bio-electrochemistry.Propose the prospective research directions for CFs.Graphical abstract[graphic not available: see fulltext]
Journal
Advanced Fiber Materials – Springer Journals
Published: Jun 1, 2023
Keywords: Carbon fiber material; Bioelectrochemistry; Microbial fuel cell; Microbial electrolysis cell; Modified; Biosensors