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References
Avlyanov, Jamshid K, Josefowicz, Jack Y, MacDiarmid, Alan G (1995). Atomic force microscopy surface morphology studies of 'in situ' deposited polyaniline thin films. Synth. Met. 73:205-208. |
|
Beech IB (2004). Corrosion of technical materials in the presence of biofilms-current understanding and state-of-the-art methods of study, Int. Biodeterior. Biodegradation 53:177-183. |
|
Beech IB, Sunner J (2004). Biocorrosion: towards understanding interactions between biofilms and metals. Curr. Opin. Biotechnol. 15: 181-186. |
|
Boronstein SW (1994). Microbiologically Influenced Corrosion Handbook, Industrial Press, New York. |
|
Cao Y, Andreatta A, Heeger AJ, Smith P (1989). Influence of chemical polymerization conditions on the properties of polyaniline. Polymer 30(1):2305-2311. |
|
Charaeklis WG (1990). Microbial fouling and microbial biofouling Control. In: W.G. Characklis WG, Marshall KC (Eds.), Biofilms, John Wile, New York, p.779. |
|
Dowling NJE, Guezennec J (1997). Microbially Induced Corrosion. In: Manual of Environmental Microbiology. Ed. in Chief - Hurst CJ, Washington DC, ASM PRESS. pp. 854-855. |
|
Enning D, Venzlaff H, Garrelfs J, Dinh HT, Meyer V, Mayrhofer K, Hassel AW, Stratmann M, Widdel F (2012). Marine sulfate-reducing bacteria cause serious corrosion of iron under electroconductive biogenic mineral crust. Environ. Microbiol. 14:1772-1787 |
|
Gangloff R, Kelly RG (1994). Microbe-enhanced environmental fatigue crack propagation in HY 130 steel. Corrosion 50:345-354. |
|
Holt JG, Krieg NR, Sneath PHA, Staley JT, Williams ST (1994). Bergey's Manual of Determinative Bacteriology, 9th ed. Williams and Wilkins, Baltimore. |
|
Huang JJ, Kaner RB (2004). A general chemical route to polyaniline nanofibers. J. Am. Chem. Soc. 126: 851-855. |
|
Javed MA, Stoddart PR, Wade SA (2015). Corrosion of carbon steel by sulphate reducing bacteria: Initial attachment and the role of ferrous ions. Corros. Sci. 93: 48-57. |
|
Lanneluc I, Langumier M, Sabot R, Jeannin M, Refait P, Sable S (2015). On the bacterial communities associated with the corrosion product layer during the early stages of marine corrosion of carbon steel. International Biodeterioration & Biodegradation. 99:55-65 |
|
Lewandowski Z (1994). Dissolved oxygen gradients near microbially colonized surfaces. In: Geesey GG, Lewandowski Z, Flemming HC (eds.), Biofouling and biocorrosion in industrial water systems, Lewis Publishers, Boca Raton, FL. pp.175-188. |
|
Little B, Wagner P, Mansfeld F (1992). An overview of microbiologically influenced corrosion. Electrochim. Acta. 37: 2185–2194. |
|
Liu LM, Levon K (1999). Undoped Polyaniline-Surfactant Complex for Corrosion Prevention. J. Appl. Polym. Sci. 73(14):2849-2856. |
|
Marshall KC, Power KN, Angles ML, Schneider RP, Goodman AE (1994). Analysis of bacterial behavior during biofouling of surfaces. In: G. G. Geesey, Z. Lewandowski, H. C. Flemming, Biofouling and Biocorrosion in Industrial Water Systems. Florida, USA: CRC Press. pp. 15-26. |
|
Nizhegorodov SY, Voloskov SA, Trusov VA, Kaputkina LM, Syur TA (2008). Corrosion of steels due to the action of microorganisms. Met. Sci. Heat Treat. 50:191-195. |
|
Sababi M, Pan J, Augustsson P, Sundell P, Claesson PM (2014). Influence of polyaniline and ceria nanoparticle additives on corrosion protection of a UV-cure coating on carbon steel. Corrosion Science. 84:189-197. |
|
Samui AB, Phadnis SM (2005). Polyaniline–dioctyl phosphate salt for corrosion protection of iron. Prog. Org. Coat. 54:263-267. |
|
Sathiyanarayanan S, Muthukrishnan S, Venkatachari G, Trivedi D (2005). Corrosion protection of steel by polyaniline (PANI) pigmented paint coating. Prog. Org. Coat. 53:297-301. |
|
Shifler D (2005). Understanding material interactions in marine environments to promote extended structural life. Corros. Sci. 47:2335-2352. |
|
Umoren SA, Ebenso EE, Okafor PC, Ekpe UJ, Ogbobe O (2007). Effect of Halide Ions on the Corrosion Inhibition of Aluminum in Alkaline Medium Using Polyvinyl Alcohol. J. Appl. Polym. Sci. 103:2810-2816. |
|
Videla HA (1996a). Manual of biocorrosion. CRC Press, Boca Raton, FL. pp.129-132. |
|
Videla HA (1996b). Manual of biocorrosion. CRC Press, Boca Raton, FL, p. 252. |
|
Walker JT, Keevil CW (1994). Study of microbial biofilms using light microscope techniques. Int. Biodeterior. Biodegradation 34(3-4):223-236. |
|
Walsh D, Pope D, Danford M, Huff T (1993). The effect of microstructure on microbiologically influenced corrosion. JOM J. Miner. Met. Mater. Soc. 45:22-30. |
|
Wilmott M (1997). Stress corrosion cracking in high pressure line pipe at near neutral pH conditions. Corros. Mater. 22:3. |
|
Wilmott MJ, Jack TR, Van Boven G, Sutherby RL (1996). Pipeline stress corrosion cracking: crack growth sensitivity studies under simulated field conditions, In: Corrosion, Paper 242, NACE, Houston, TX. 1-19. |
|
Yuan S, Tang S, Lv L, Liang B, Choong C, Pehkonen SO (2012). Poly(4-vinylaniline)-Polyaniline Bilayer-Modified Stainless Steels for the Mitigation of Biocorrosion by Sulfate-Reducing Bacteria (SRB) in Seawater. Ind. Eng. Chem. Res. 51: 14738-14751. |
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