Review Article
Raw Materials Synthesis from Heavy Metal Industry Effluents with Bioremediation and Phytomining: A Biomimetic Resource Management Approach
Table 3
Bacteria-mediated biosynthesis of nanoparticles.
| Metal/metal oxide | Microorganisms | | Nanoparticle size (nm) |
| Au | Geobacillus sp. [125] | | 5–50 | Klebsiella pneumoneae [126] | | | Escherichia coli [127, 128] | Extracellular | 17–32, 5–70 (uniform at 2.2) | Magnetospirillum gryphiswaldense MSR-1 [54] | Extracellular | 10–40 | Pseudomonas aeruginosa
[129] | Extracellular | 15–30 | Rhodopseudomonas capsulate [130] | Extracellular | 10–20 | Micrococcus luteus [131] | Extracellular | 6 nm and 50 nm | Stenotrophomonas [132] | Extracellular marine source | 10–50 |
| Ag | E.coli [133] | | | Lactobacillus sp. [134] | | 10–25, | Bacillus licheniformis
[135] | | 2–100 | Streptomyces hygroscopicus (BDUS 49) [136] | Live cells from sewage | 20–30 | Corynebacterium glutamicum (0) [120] | | 5–50 | Streptomyces sp. BDUKAS10 [137] | Extracellular | 21–48 | Bacillus cereus [138] | | 4-5 | Bacillus amyloliquefaciens LSSE-62 [139] | Intracellular | 14.6 | Stenotrophomonas [132] | | 40–60 |
| Se | Klebsiella pneumoneae [9, 133] | | 100–550 | Zooglea ramigera [140] | Extracellular | 30–150 | Bacillus subtilis [141] | Extracellular | 50–400 |
| Ag2O | Lactobacillus mindensis [142] | | 2–20 |
| Ti | Lactobacillus sp. [134] | | 10–70 |
| TiO2 | Bacillus subtilis [143] | | 66–77, 10–30 |
| Cu2S | Streptomyces sp. [144] | | 100–150 | Desulfovibrio desulfuricans [121] | | 20–30 |
| Zinc nitrate | Streptomyces sp. [144] | | 100–150 |
| ZnO | Calotropis gigantean [145] | | | Lactobacillus sporogenes [146] | | 5–15 | Lactobacillus plantarum VITES07 [147] | | 7–19 | Aeromonas hydrophila [148] | | 57.72 |
| CdS | Rhodopseudomonas [149] | Intracellular | 8.01 ± 0.25 |
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