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Magnetotactic bacteria used to generate electricity based on Faraday's law of electromagnetic induction
Author(s) -
Smit B.A.,
Van Zyl E.,
Joubert J.J.,
Meyer W.,
Prévéral S.,
Lefèvre C.T.,
Venter S.N.
Publication year - 2018
Publication title -
letters in applied microbiology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.698
H-Index - 110
eISSN - 1472-765X
pISSN - 0266-8254
DOI - 10.1111/lam.12862
Subject(s) - magnetosome , magnetotactic bacteria , faraday cage , magnetite , voltage , magnetic nanoparticles , materials science , chemistry , microbiology and biotechnology , biology , physics , nanotechnology , magnetic field , nanoparticle , quantum mechanics , metallurgy
Abstract Magnetotactic bacteria ( MTB ) have the unique ability to produce magnetic particles surrounded by a biomembrane to form the magnetosome organelle. Therefore, MTB have novel physical and magnetic properties and have consequently been used in several biotechnological applications. The magnetic properties of these micro‐organisms and their magnetosomes have, however, never been used for the generation of electricity as described in this letter. Comparisons were made between, firstly, the electricity generated from purified magnetosomes, MTB culture (bacterial cells with magnetosomes) and sterile, liquid growth medium (control). Secondly, the electricity generated by a dilution series of purified magnetosomes were compared. A statistically significant difference was found between the voltage measured from the purified magnetosomes (highest voltage), MTB culture (lower voltage) and liquid growth medium (lowest voltage). In the dilution series, the voltage measured increased as the magnetosome concentration increased, but only up to an optimum concentration (0·0376 mg ml −1 ). In this study, we have demonstrated that a significantly higher voltage than that of the control could be measured when MTB or purified magnetosomes were pumped through a solenoid by applying Faraday's law of electromagnetic induction. Significance and Impact of the Study This study provides proof‐of‐concept of electromagnetic induction using magnetosomes or magnetotactic bacteria in an experimental setup based on the law of Faraday. The concept of using these bacteria or their biomineralized magnetic nanoparticles as a biological alternative in low voltage electricity generation has the potential to be further explored and developed.