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Scalable production of microbially mediated zinc sulfide nanoparticles and application to functional thin films

[Display omitted] A series of semiconducting zinc sulfide (ZnS) nanoparticles were scalably, reproducibly, controllably and economically synthesized with anaerobic metal-reducing Thermoanaerobacter species. These bacteria reduced partially oxidized sulfur sources to sulfides that extracellularly and...

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Bibliographic Details
Published in:Acta biomaterialia 2014-10, Vol.10 (10), p.4474-4483
Main Authors: Moon, Ji-Won, Ivanov, Ilia N., Joshi, Pooran C., Armstrong, Beth L., Wang, Wei, Jung, Hyunsung, Rondinone, Adam J., Jellison, Gerald E., Meyer, Harry M., Jang, Gyoung Gug, Meisner, Roberta A., Duty, Chad E., Phelps, Tommy J.
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Language:English
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Summary:[Display omitted] A series of semiconducting zinc sulfide (ZnS) nanoparticles were scalably, reproducibly, controllably and economically synthesized with anaerobic metal-reducing Thermoanaerobacter species. These bacteria reduced partially oxidized sulfur sources to sulfides that extracellularly and thermodynamically incorporated with zinc ions to produce sparingly soluble ZnS nanoparticles with ∼5nm crystallites at yields of ∼5gl−1month−1. A predominant sphalerite formation was facilitated by rapid precipitation kinetics, a low cation/anion ratio and a higher zinc concentration compared to background to produce a naturally occurring hexagonal form at the low temperature, and/or water adsorption in aqueous conditions. The sphalerite ZnS nanoparticles exhibited narrow size distribution, high emission intensity and few native defects. Scale-up and emission tunability using copper doping were confirmed spectroscopically. Surface characterization was determined using Fourier transform infrared and X-ray photoelectron spectroscopies, which confirmed amino acid as proteins and bacterial fermentation end products not only maintaining a nano-dimensional average crystallite size, but also increasing aggregation. The application of ZnS nanoparticle ink to a functional thin film was successfully tested for potential future applications.
ISSN:1742-7061
1878-7568
DOI:10.1016/j.actbio.2014.06.005