Restrictions on the Production of Multi-Wall Carbon Nanotubes and Nanofibers by Gallionella sp. |
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Authors: | Kong-Peng Lv Lucy Norman |
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Institution: | Department of Earth Sciences, University of Hong Kong, Hong Kong, China |
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Abstract: | The enzymatic oxidization of dissolved Fe(II) to Fe(III) by neutrophilic Fe-oxidizing bacteria plays a significant role in biological cycling of iron by inducing the precipitation of Fe(III) oxyhydroxide in aqueous environments. Among the diverse neutrophilic Fe-oxidizing bacteria, the genus Gallionella has received wide attention for its production of unique twisted extracellular stalks. Hallberg and Tai (2014 Hallberg R, Tai CW. 2014. Multi-wall carbon nanotubes and nanofibers in Gallionella. Geomicrobiol J 31(9):764–768.Taylor & Francis Online], Web of Science ®] , Google Scholar]) recently reported the detection of multi-wall carbon nanotubes on the twisted-stalks, and they viewed those carbon nanotubes as being biologically produced by Gallionella. We scrutinized Gallionella-produced biofilms collected from natural environments by scanning electron microscopy and high-resolution transmission electron microscopy. Ferrihydrite and lepidocrocite were the only nano-scaled minerals observed on the stalk, while there were nanometer-sized sheet-like graphitic contaminants on the grid in the vicinity of the sample which showed the same morphology as Hallberg and Tai (2014 Hallberg R, Tai CW. 2014. Multi-wall carbon nanotubes and nanofibers in Gallionella. Geomicrobiol J 31(9):764–768.Taylor & Francis Online], Web of Science ®] , Google Scholar]) observed. Moreover, similar materials on an empty grid and a grid loaded with randomly selected synthesized materials were also observed. Based on the current knowledge of carbon nanotube syntheses, none of the three known synthesizing methods including root-growth, rolling-up and bottom-up could be biochemically produced by any life because of the significant kinetic and energy obstacles. The carbon nanomaterials reported by Hallberg and Tai (2014 Hallberg R, Tai CW. 2014. Multi-wall carbon nanotubes and nanofibers in Gallionella. Geomicrobiol J 31(9):764–768.Taylor & Francis Online], Web of Science ®] , Google Scholar]) were clearly contaminations from amorphous carbon film on the grids for holding samples for transmission electron microscopic observations. |
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Keywords: | carbon nanotube Gallionella grids for transmission electron microscopy sheet-like carbonaceous contaminants |
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