Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst
10.3390/ijms18020276
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sg-nus-scholar.10635-1761002024-04-03T09:13:07Z Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst Kharkwal, S Tan, Y.C Lu, M Ng, H.Y CIVIL AND ENVIRONMENTAL ENGINEERING manganese oxide manganese derivative manganese dioxide oxide waste water Article biochemical oxygen demand biosensor calibration catalyst cyclic potentiometry microbial fuel cell molecular stability nonhuman retention time waste water biochemical oxygen demand bioenergy catalysis chemistry electricity genetic procedures time factor Bioelectric Energy Sources Biological Oxygen Demand Analysis Biosensing Techniques Calibration Catalysis Electricity Manganese Compounds Oxides Time Factors Waste Water 10.3390/ijms18020276 International Journal of Molecular Sciences 18 2 276 2020-09-14T08:06:58Z 2020-09-14T08:06:58Z 2017 Article Kharkwal, S, Tan, Y.C, Lu, M, Ng, H.Y (2017). Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst. International Journal of Molecular Sciences 18 (2) : 276. ScholarBank@NUS Repository. https://doi.org/10.3390/ijms18020276 1661-6596 https://scholarbank.nus.edu.sg/handle/10635/176100 Unpaywall 20200831 |
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Singapore Singapore |
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| topic |
manganese oxide manganese derivative manganese dioxide oxide waste water Article biochemical oxygen demand biosensor calibration catalyst cyclic potentiometry microbial fuel cell molecular stability nonhuman retention time waste water biochemical oxygen demand bioenergy catalysis chemistry electricity genetic procedures time factor Bioelectric Energy Sources Biological Oxygen Demand Analysis Biosensing Techniques Calibration Catalysis Electricity Manganese Compounds Oxides Time Factors Waste Water |
| spellingShingle |
manganese oxide manganese derivative manganese dioxide oxide waste water Article biochemical oxygen demand biosensor calibration catalyst cyclic potentiometry microbial fuel cell molecular stability nonhuman retention time waste water biochemical oxygen demand bioenergy catalysis chemistry electricity genetic procedures time factor Bioelectric Energy Sources Biological Oxygen Demand Analysis Biosensing Techniques Calibration Catalysis Electricity Manganese Compounds Oxides Time Factors Waste Water Kharkwal, S Tan, Y.C Lu, M Ng, H.Y Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| description |
10.3390/ijms18020276 |
| author2 |
CIVIL AND ENVIRONMENTAL ENGINEERING |
| author_facet |
CIVIL AND ENVIRONMENTAL ENGINEERING Kharkwal, S Tan, Y.C Lu, M Ng, H.Y |
| format |
Article |
| author |
Kharkwal, S Tan, Y.C Lu, M Ng, H.Y |
| author_sort |
Kharkwal, S |
| title |
Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| title_short |
Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| title_full |
Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| title_fullStr |
Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| title_full_unstemmed |
Development and long-term stability of a novel microbial fuel cell BOD sensor with MNo2 catalyst |
| title_sort |
development and long-term stability of a novel microbial fuel cell bod sensor with mno2 catalyst |
| publishDate |
2020 |
| url |
https://scholarbank.nus.edu.sg/handle/10635/176100 |
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1795374408499462144 |