We report a facile synthesis of Zn2SiO4 nanotubes using a two-step process consisting of a wet-chemical synthesis of core-shell ZnO@SiO2 nanorods followed by thermal annealing. While annealing in air leads to the formation of hollow Zn2SiO4, annealing under reducing atmosphere leads to the formation of SiO2 nanotubes. We rationalize the formation of the silicate phase at temperatures much lower than the temperatures reported in the literature based on the porous nature of the silica shell on the ZnO nanorods. We present results from in situ transmission electron microscopy experiments to clearly show void nucleation at the interface between ZnO and the silica shell and the growth of the silicate phase by the Kirkendall effect. The porous nature of the silica shell is also responsible for the etching of the ZnO leading to the formation of silica nanotubes under reducing conditions. Both the hollow silica and silicate nanotubes exhibit good uranium sorption at different ranges of pH making them possible candidates for nuclear waste management.
Bacillus pumilus strain NMSN-1d isolated from polyurethane-contaminated water was found to grow in high salt concentration (NaCl 10%, w/v) and degrade Impranil-DLN, water-dispersible polyurethane. The genetic relatedness of the isolate has been established by standard molecular biological techniques and the enzyme(s) involved in polyurethane degradation were also studied. A total of nine bacterial strains were isolated from polyurethane-polluted sites and characterized by conventional, microbiological and biochemical methods. These isolates were subjected to 16S ribosomal RNA gene amplification by PCR using specific primers. The genetic relatedness of the isolates was also ascertained by ribotyping and BLAST analysis of the 16S ribosomal RNA gene sequences. The bacterial isolates were grown in yeast extract-salts minimal broth medium supplemented with water-dispersible polyurethane (Impranil DLN) as a sole source of carbon. The promising isolate utilizing polyurethane and producing lipase was identified as Bacillus pumilus NMSN-1d. The polyurethane degradation has been studied in polyurethane-Rhodamine-B and Luria-Bertani-polyurethane plate assays. The activity of hydrolytic enzymes such as lipase and esterase was confirmed on 2xYT-olive oil and tributyrin-Tween 20 plate assay. The newly isolated Bacillus pumilus appears promising in the management of polyurethane waste and in production of industrially important enzymes.
The spectrum of antibacterial activities shown by fatty acid fractions of different microalgae, depending on the
unsaturation pattern and chain length are still need to be explored. This study provides information on the fatty acid
composition of three microalgae, Chlorella marina, Nannochloropsis occulata and Chaetoceros affinis along with their
antibacterial activities against selected clinical and fish pathogens. PUFA content of fatty acid fractions followed the
order N. occulata > C. affinis > C. marina. Greater abundance of eicosapentanoic acid found in Nannochloropsis
occulata (27.39 ± 0.15%) and Chaetoceros affinis (25.34 ± 0.23%) might be responsible for higher bacterial inhibition
shown by these fractions.
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