Jiejie Lv scite author profile

Jiejie Lv

5Publications

61Citation Statements Received

113Citation Statements Given

How they've been cited

101

How they cite others

157

111

Affiliations

Nanjing Agricultural University, Zhejiang Academy of Forestry, Zhejiang A & F University

Publications

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Nucleation and Growth of Mg-Calcite Spherulites Induced by the BacteriumCurvibacter lanceolatusStrain HJ-1

Zhang

et al. 2017

Microsc Microanal

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Calcite spherulites have been observed in many laboratory experiments with different bacteria, and spherulitic growth has received much interest in mineralogy research. However, the nucleation and growth mechanism, as well as geological significance of calcite spherulites in solution with bacteria is still unclear. Herein, spherulites composed of an amorphous core, a Mg-calcite body and an organic film were precipitated by the Curvibacter lanceolatus HJ-1 bacterial strain in a solution with a molar Mg/Ca ratio of 3. Based on the results, we provide a possible mechanism for the biomineralization of Mg-calcite spherulites. First, amorphous calcium carbonate particles are deposited and aggregated into a stable sphere-like core in combination with organic molecules. The core then acts as the nucleus of spherulitic radial growth. Finally, the organic film grows on the surface of Mg-calcite spherulites as a result of bacterial metabolism and calcification. These findings provide insight into the growth mode and crystallization of biogenic spherulites during biomineralization, and are of significance in the application of novel biological materials.

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Vaterite induced by Lysinibacillus sp. GW-2 strain and its stability

et al. 2017

Journal of Structural Biology

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Morphology and formation mechanism in precipitation of calcite induced by Curvibacter lanceolatus strain HJ-1

Zhang

2017

Journal of Crystal Growth

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Controlled Crystallization and Transformation of Carbonate Minerals with Dumbbell-like Morphologies on Bacterial Cell Templates

Zhang

Jun

et al. 2020

Microsc Microanal

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Research on the biogenic-specific polymorphism and morphology of carbonate has been gaining momentum in the fields of biomineralization and industrial engineering in recent years. We report the nucleation of carbonate particles on bacterial cell templates to produce a novel dumbbell-like morphology which was assembled by needle-like crystals of magnesium calcite or aragonite radiating out from both ends of the template bacterium. Mature dumbbell-like structures had a tendency to break apart in the central template region, which was made up mostly of weak amorphous carbonate. Further crystal growth, especially at the template region, transformed the broken pieces into spherulites. Rod-like cell templates were essential for the formation of dumbbell-like morphologies, and we propose a possible formation mechanism of the dumbbell-like morphology. Our findings provide new perspectives on the morphological formation mechanism in biomineralization systems and may have a potential significance in assembling composite materials suitable for industrial applications.

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The Effect of Extracellular Polymeric Substances Secreted by G+ and G- Bacteria on Precipitation of Carbonate Minerals

Li¹,

Wen²,

Li³

et al. 2020

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Jiejie Lv

Nucleation and Growth of Mg-Calcite Spherulites Induced by the BacteriumCurvibacter lanceolatusStrain HJ-1

Vaterite induced by Lysinibacillus sp. GW-2 strain and its stability

Morphology and formation mechanism in precipitation of calcite induced by Curvibacter lanceolatus strain HJ-1

Controlled Crystallization and Transformation of Carbonate Minerals with Dumbbell-like Morphologies on Bacterial Cell Templates

The Effect of Extracellular Polymeric Substances Secreted by G+ and G- Bacteria on Precipitation of Carbonate Minerals

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