Effect of Chemically Treated / Untreated Carbon Cloth: Potential Use as Electrode Materials in the Capacitive Deionization Process of Desalination of Aqueous Salt Solution

Thamilselvan, Annadurai; Nesaraj, A. Samson; Noel, M.; James, E. J.

doi:10.5229/jecst.2015.6.4.139

Cited by 4 publications

(2 citation statements)

References 22 publications

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“…The power production in CSMFC is similar to other ceramic [31] and membrane-less sediment MFC [24,33] in freshwater, but lower than in seawater [33], further indicating that ohmic limitations are important in the system. Despite having different exposed electrode areas, similar values would be expected with both materials, as the specific surface area is larger for graphite felt (22,,700 m −1 [34]) than carbon cloth (675 m −2 [35]). The porosity of graphite felt could have facilitated bacterial attachment that would block the electrode active sites and consume oxygen.…”

Section: Evaluation Of Relevant Factors On Csmfc Performancesupporting

confidence: 55%

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Olias

Otero

Cameron

et al. 2020

The 1st International Electronic Conference on Biosensors

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The increasing use of fertilisers rises the risk of eutrophication, a sudden algal bloom that seriously damage ecosystems due to critical oxygen depletion. Continuous monitoring of oxygen in environmental waters could improve the detection of eutrophication and prevent anoxic conditions. However, online and in situ dissolved oxygen sensors are yet to be implemented due to poor portability and power requirements. Here, we propose a ceramic soil microbial fuel cell as a selfpowered sensor for algal growth detection via monitoring of dissolved oxygen in water. The sensor signal follows the characteristic photosynthetic cycle, with a maximum day current of 0.18 ± 0.2 mA and a minimum night current of 0.06 ± 0.34 mA, which correlates with dissolved oxygen (R 2 = 0.85 (day); R 2 = 0.5 (night)) and algal concentration (R 2 = 0.63). A saturated design of experiments on seven factors suggests that temperature, dissolved oxygen, nitrates and pH are most influential operational factors in the voltage output. Moreover, operating the system at maximum power point (Rext = 2 kΩ) improves the sensor sensitivity. To the best of our knowledge, this is the first proposed MFC-based biosensor for in field, early detection of eutrophic events.

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Section: Evaluation Of Relevant Factors On Csmfc Performancesupporting

confidence: 55%

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Olias

Otero

Cameron

et al. 2020

The 1st International Electronic Conference on Biosensors

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“…A quantitative amount of the Mg 2 B 2 O 5 catalyst (10 mg) was dispersed in a 1:1 (v/v) mixture of water and isopropyl alcohol (1 mL) and ultrasonicated for 30 min. Before modifying the (1 × 1) cm 2 CC with the as-prepared ink, it was properly cleaned with nitric acid followed by subsequent water washing until pH-neutral following the conventional method to obtain the activated CC, 30 which was hence drop-casted with 0.5 mg cm −2 of the catalyst ink. This mass loading was maintained throughout the study.…”

Section: ■ Introductionmentioning

confidence: 99%

Ample Lewis Acidic Sites in Mg₂B₂O₅ Facilitate N₂ Electroreduction through Bonding–Antibonding Interactions

Biswas,

Ghosh,

Sudarshan

et al. 2023

Inorg. Chem.

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Extensive research on the electrochemical nitrogen reduction reaction (NRR) has put forward a sound list of potential catalyst materials with properties inducing N2 adsorption, protonation, and reduction. However, rather than a random selection of catalysts, it is essential to understand the vitals in terms of orbital orientation and charge distribution that actually manipulate the rate-determining steps of NRR. Realizing these factors, herein we have explored a main group earth-abundant Mg-based electrocatalyst Mg2B2O5 for NRR due to the abundance of Lewis acid sites in the catalyst favoring the bonding–antibonding interactions with the N2 molecules. Positron annihilation studies indicate that the electronic charge distribution within the catalyst has shallow surface oxygen vacancies. These features in the catalyst enabled a sound Faradaic efficiency of 46.4% at −0.1 V vs reversible hydrogen electrode for the selective NH3 production in neutral electrolyte. In situ Fourier transform infrared suggests a maximum N–N bond polarization at −0.1 V and detected H–N–H and –NH2 intermediates during the course of the NRR on the catalyst surface. In a broader picture, the biocompatibility of Mg2+ diversifies the utility of this catalyst material in N2/biofuel cell applications that would certainly offer a green alternative toward our goal of a sustainable society.

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Investigation of polyaniline electrodeposition on hydrophilic/hydrophobic carbon cloth substrates for symmetric coin cell supercapacitors

Shabi,

Mirghni,

Shah

et al. 2024

J Solid State Electrochem

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Effect of Chemically Treated / Untreated Carbon Cloth: Potential Use as Electrode Materials in the Capacitive Deionization Process of Desalination of Aqueous Salt Solution

Cited by 4 publications

References 22 publications

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Ample Lewis Acidic Sites in Mg₂B₂O₅ Facilitate N₂ Electroreduction through Bonding–Antibonding Interactions

Investigation of polyaniline electrodeposition on hydrophilic/hydrophobic carbon cloth substrates for symmetric coin cell supercapacitors

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Effect of Chemically Treated / Untreated Carbon Cloth: Potential Use as Electrode Materials in the Capacitive Deionization Process of Desalination of Aqueous Salt Solution

Cited by 4 publications

References 22 publications

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Ceramic Soil Microbial Fuel Cells Sensors for Early Detection of Eutrophication

Ample Lewis Acidic Sites in Mg2B2O5 Facilitate N2 Electroreduction through Bonding–Antibonding Interactions

Investigation of polyaniline electrodeposition on hydrophilic/hydrophobic carbon cloth substrates for symmetric coin cell supercapacitors

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Product

Resources

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Ample Lewis Acidic Sites in Mg₂B₂O₅ Facilitate N₂ Electroreduction through Bonding–Antibonding Interactions