1. Applying the first microcapsule-based self-healing microbial-induced calcium carbonate materials to prevent the migration of Pb ions.
- Author
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Xue, Zhong-Fei, Cheng, Wen-Chieh, Wang, Lin, Qin, Peng, Xie, Yi-Xin, and Hu, Wenle
- Subjects
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CALCITE , *ION migration & velocity , *CALCIUM carbonate , *FOURIER transform infrared spectroscopy , *LEAD , *BACTERIAL spores , *SELF-healing materials - Abstract
Lead (Pb) accumulation can lead to serious threats to surrounding environments and damage to the liver and kidneys. In the past few years, microbial-induced carbonate precipitation (MICP) technology has been widely applied to achieve Pb immobilization due to its environmentally friendly nature. However, harsh pH conditions can cause the instability of the carbonate precipitation to degrade or dissolve, increasing the potential of Pb2+ migration into nearby environments. In this study, microcapsule-based self-healing microbial-induced calcium carbonate (MICC) materials were applied to prevent Pb migration. The highest sporulation rate of 95.8% was attained at 7 g/L yeast extract, 10 g/L NH4Cl, and 3.6 g/L Mn2+. In the germination phase, the microcapsule not only prevented the bacterial spores from being threatened by the acid treatment but secured their growth and reproduction. Micro analysis also revealed that cerussite, calcite, and aragonite minerals were present, while extracellular polymeric substances (EPSs) were identified via Fourier transform infrared spectroscopy (FTIR). These results confirm their involvement in combining Pb2+ and Ca2+. The immobilization efficiency of above 90% applied to MICC materials was attained, while it of below 5% applied to no MICC use was attained. The findings explore the potential of applying microcapsule-based self-healing MICC materials to prevent Pb ion migration when the calcium carbonate degrades under harsh pH conditions. • The carbon and nitrogen sources and trace elements affected the sporulation rate. • The microcapsule prevented the spores from affecting by harsh pH conditions. • The microcapsule provided the spores with more sites to combine with Pb2+ and Ca2+. • The microcapsule achieved the self-healing of carbonate precipitation. [ABSTRACT FROM AUTHOR]
- Published
- 2023
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