Biomineralization and mineralization using microfluidics: a comparison study
Biomineralization through microbial process has attracted great attention in the field of geotechnical engineering due to its ability to bind granular materials, clog pores, and seal fractures. Although minerals formed by biomineralization are generally the same as that by mineralization, their mech...
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sg-ntu-dr.10356-1711592023-10-20T15:33:31Z Biomineralization and mineralization using microfluidics: a comparison study Xiao, Yang He, Xiang Ma, Guoliang Zhao, Chang Chu, Jian Liu, Hanlong School of Civil and Environmental Engineering Engineering::Civil engineering Microbially Induced Carbonate Precipitation Biocementation Biomineralization through microbial process has attracted great attention in the field of geotechnical engineering due to its ability to bind granular materials, clog pores, and seal fractures. Although minerals formed by biomineralization are generally the same as that by mineralization, their mechanical behaviors show a significant discrepancy. This study aims to figure out the differences between biomineralization and mineralization processes by visualizing and tracking the formation of minerals using microfluidics. Both biomineralization and mineralization processes occurred in the Y-shaped sand-containing microchip that mimics the underground sand layers. Images from different areas in the reaction microchannel of microchips were captured to directly compare the distribution of minerals. Crystal size and numbers from different reaction times were measured to quantify the differences between biomineralization and mineralization processes in terms of crystal kinetics. Results showed that the crystals were precipitated in a faster and more uncontrollable manner in the mineralization process than that in the biomineralization process, given that those two processes presented similar precipitation stages. In addition, a more heterogeneous distribution of crystals was observed during the biomineralization process. The precipitation behaviors were further explained by the classical nucleation crystal growth theory. The present microfluidic tests could advance the understanding of biomineralization and provide new insight into the optimization of biocementation technology. Published version We acknowledge the funding support from the National Natural Science Foundation of China (Grant Nos. 51922024 and 52078085) and Chongqing Talents Program, China (Grant No. cstc2021ycjh-bgzxm0051). 2023-10-16T04:53:37Z 2023-10-16T04:53:37Z 2023 Journal Article Xiao, Y., He, X., Ma, G., Zhao, C., Chu, J. & Liu, H. (2023). Biomineralization and mineralization using microfluidics: a comparison study. Journal of Rock Mechanics and Geotechnical Engineering. https://dx.doi.org/10.1016/j.jrmge.2023.03.019 1674-7755 https://hdl.handle.net/10356/171159 10.1016/j.jrmge.2023.03.019 2-s2.0-85165650760 en Journal of Rock Mechanics and Geotechnical Engineering © 2023 Institute of Rock and Soil Mechanics, Chinese Academy of Sciences. Production and hosting by Elsevier B.V. This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/). application/pdf |
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Engineering::Civil engineering Microbially Induced Carbonate Precipitation Biocementation |
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Engineering::Civil engineering Microbially Induced Carbonate Precipitation Biocementation Xiao, Yang He, Xiang Ma, Guoliang Zhao, Chang Chu, Jian Liu, Hanlong Biomineralization and mineralization using microfluidics: a comparison study |
| description |
Biomineralization through microbial process has attracted great attention in the field of geotechnical engineering due to its ability to bind granular materials, clog pores, and seal fractures. Although minerals formed by biomineralization are generally the same as that by mineralization, their mechanical behaviors show a significant discrepancy. This study aims to figure out the differences between biomineralization and mineralization processes by visualizing and tracking the formation of minerals using microfluidics. Both biomineralization and mineralization processes occurred in the Y-shaped sand-containing microchip that mimics the underground sand layers. Images from different areas in the reaction microchannel of microchips were captured to directly compare the distribution of minerals. Crystal size and numbers from different reaction times were measured to quantify the differences between biomineralization and mineralization processes in terms of crystal kinetics. Results showed that the crystals were precipitated in a faster and more uncontrollable manner in the mineralization process than that in the biomineralization process, given that those two processes presented similar precipitation stages. In addition, a more heterogeneous distribution of crystals was observed during the biomineralization process. The precipitation behaviors were further explained by the classical nucleation crystal growth theory. The present microfluidic tests could advance the understanding of biomineralization and provide new insight into the optimization of biocementation technology. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Xiao, Yang He, Xiang Ma, Guoliang Zhao, Chang Chu, Jian Liu, Hanlong |
| format |
Article |
| author |
Xiao, Yang He, Xiang Ma, Guoliang Zhao, Chang Chu, Jian Liu, Hanlong |
| author_sort |
Xiao, Yang |
| title |
Biomineralization and mineralization using microfluidics: a comparison study |
| title_short |
Biomineralization and mineralization using microfluidics: a comparison study |
| title_full |
Biomineralization and mineralization using microfluidics: a comparison study |
| title_fullStr |
Biomineralization and mineralization using microfluidics: a comparison study |
| title_full_unstemmed |
Biomineralization and mineralization using microfluidics: a comparison study |
| title_sort |
biomineralization and mineralization using microfluidics: a comparison study |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171159 |
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1781793848211537920 |