2019
DOI: 10.1016/j.jmst.2018.08.001
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Microbiologically influenced corrosion of titanium caused by aerobic marine bacterium Pseudomonas aeruginosa

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Cited by 79 publications
(10 citation statements)
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“…After each mentioned incubation period, the 316L SS coupons were removed and washed with a 7.4 pH phosphate-buffered saline solution in order to remove the planktonic cells. Next, sessile cells (live and dead) were stained using a live/dead BacLight bacterial viability kit (Thermo Fisher Scientific, USA) as previously described by Saleem et al 29 Finally, CLSM was used to investigate biofilm formation on the surfaces of 316L SS coupons. FESEM was used to study the S. algae biofilm morphological information on 316L SS coupons.…”
Section: Experimental Methodsmentioning
confidence: 99%
“…After each mentioned incubation period, the 316L SS coupons were removed and washed with a 7.4 pH phosphate-buffered saline solution in order to remove the planktonic cells. Next, sessile cells (live and dead) were stained using a live/dead BacLight bacterial viability kit (Thermo Fisher Scientific, USA) as previously described by Saleem et al 29 Finally, CLSM was used to investigate biofilm formation on the surfaces of 316L SS coupons. FESEM was used to study the S. algae biofilm morphological information on 316L SS coupons.…”
Section: Experimental Methodsmentioning
confidence: 99%
“…Ti and its alloys are highly corrosion resistant in the marine environment, where most traditional materials frequently collapse, although its oxide layer is no longer resistant if treated with highly concentrated hydrochloric acid or chloride ions. ,, There are very few studies on the biocorrosion of Ti in marine conditions. Saleem et al explored the corrosion of Ti by P. aeruginosa in simulated marine conditions. The enhancement of MIC having biofilm could be attributed to the development of an unstable Ti 2 O 3 oxide layer, causing the defects in the passive layer and resulting in localized pitting corrosion.…”
Section: Role Of Mediators In Electron Transfermentioning
confidence: 99%
“…100,107,108 There are very few studies on the biocorrosion of Ti in marine conditions. Saleem et al 109 explored the corrosion of Ti by P. aeruginosa in simulated marine conditions. The enhancement of MIC having biofilm could be attributed to the development of an unstable Ti 2 O 3 oxide layer, causing the defects in the passive layer and resulting in localized pitting corrosion.…”
Section: Role Of Mediators In Electron Transfermentioning
confidence: 99%
“…The pitting corrosion was investigated with the help of CLSM, and the largest pit depth found on Ti surface immersed in P. aeruginosa was 1.2 μm. The study highlighted that Ti was not immune to MIC caused by P. aeruginosa [110]. CLSM is fast becoming a method of analysis for pitting corrosion with many authors already using the microscopic method [111].…”
Section: Optical Microscopy (Om) and Epifluorescence Microscopy (Em)mentioning
confidence: 99%