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Journal of Industrial and Engineering Chemistry, Vol.79, 1-18, November, 2019
Progress in the development of sour corrosion inhibitors: Past, present, and future perspectives
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Metallic pipelines and gathering tanks play a vital role during oil and gas exploration, production, transmission, and processing. These facilities are usually attacked by corrosion. The use of corrosion inhibitors is one of the most economical and reliable approaches to control the corrosion of oil and gas metallic facilities. This paper looks at the progress made in the development of sour corrosion inhibitors from early 1900 to date. Scientific literatures were reviewed. The review identified four classes of organic corrosion inhibitors for sour environments, namely, amine-based, imidazoline-based, polymer-based, and Gemini-surfactant-based inhibitors. The strengths and weaknesses of these inhibitors were highlighted. The review revealed that the patronage of amine-based chemistries has declined, and the current technology is based on imidazoline and quaternary salt chemistries. The existing knowledge gap and the future research direction in the area of sour corrosion inhibitors development have been highlighted.
- IBISWorld, Global Oil & Gas Exploration & Production US Industry Market Research Report, (2018) . . March. (Accessed 12 January 2019).
- Organization of Petroleum Exporting Countries, World Oil Outlook 2040.
- Menendez CM, Hughes B, Jardine J, Mok WY, Ramachandran S, Jovancicevic V, Bhattacharya A, Paper No. IPTC 17440, International Petroleum Technology Conference (2014).
- Perez TE, JOM, 65(8), 1033 (2013)
- El-Sherik AM, Ajwad HA, Mater. Perform., 57(5), 48 (2018)
- Crolet JL, J. Pet. Technol., 1553 (1983).
- Bardal E, Corrosion and protection, Engineering Materials and Processes, Springer-Verlag London Limited, 2004.
- NACE MR0175/ ISO 15156-1, Materials for Use in H2S-Containing Environments in Oil and Gas Production, NACE International/ISO, 2001.
- Attack-A-MarketTM education and training guide.
- Al-Janabi YT, Al-Ajwad HA, Corrosivity and corrosion inhibition of wet-sour crude oil wells. Paper No.5759, NACE International, Dallas, Texas, 2015.
- Rajeev P, Surendranathan AO, Murthy CSN, J. Mater. Environ. Sci., 3, 856 (2012)
- Al-Sulaiman S, Al-Mithin A, Al-Shamari A, Islam M, Microbiologically Influenced Corrosion of a Crude Oil Pipeline. Paper No. 10210, NACE International, 2010.
- Nyborg R, Exploration & Production: The oil & Gas Review, Issue 2, (2005).
- Menendez CM, Jovancicevic V, Ramachandran S, Morton M, Stegmann D, New Method for Assessing Corrosion Under Iron Sulfide Deposits and CO2/H2S Conditions. Paper No. 11265, NACE International, 2011., Bowerman C, Mattox M, Lucas B, Sour Crude Gathering and Transportation System Accomplished Using Novel Chemistry. Paper No. C-2012-0001113, NACE International, Houston, TX, 2012.
- Menendez CM, Jovancicevic V, Ramachandran S, Morton M, Stegmann D, New Method for Assessing Corrosion Under Iron Sulfide Deposits and CO2/H2S Conditions. Paper No. 11265, NACE International, 2011.
- Alanazi M, El-Sherik AM, Rasheed AH, Amar SH, Dossary MR, Alneema MN, Corrosion, 71(3), 305 (2015)
- Sun W, Pugh DV, Smith SN, Ling S, Pacheco JL, Franco RJ, Paper no. 10278, NACE International Corrosion Conference & Expo (2010).
- Wen X, Bai P, Luo B, Zheng S, Chen C, Corrosion Sci., 139, 124 (2018)
- Zhang GA, Zeng Y, Guo XP, Jiang F, Shi DY, Chen ZY, Corrosion Sci., 65, 37 (2012)
- Suleimenov OM, Krupp RKE, Geochim. Cosmochim. Acta, 58(11), 2433 (1994)
- Suleimenov OM, Seward TM, Geochim. Cosmochim. Acta, 61(24), 5187 (1997)
- Kharaka YK, Gunter WD, Aggarwal PK, Perkins EH, US Geological Survey Water-Resources Investigation Report 88-4227, (1988).
- Gao S, Jin P, Brown B, Young D, Nesic S, Corrosion, 73, 915 (2017)
- Lucio-Garcia MA, Gonzalez-Rodriguez JG, Casales M, Martinez L, Chacon-Nava JG, Neri-Flores MA, Martinez-Villafane A, Corrosion Sci., 51, 2380 (2009)
- Cheng XL, Ma HY, Zhang JP, Chen X, Chen SH, Corrosion, 54, 369 (1998)
- Traidia A, Alfano M, Lubineau G, Duval S, Sherik A, Int. J. Hydrog. Energy, 37(21), 16214 (2012)
- Ning J, Zheng Y, Young D, Brown B, Nesic S, Corrosion, 70, 375 (2014)
- Sardisco JB, Pitts RE, Corrosion, 21, 350 (1965)
- Bai P, Zheng S, Zhao H, Ding Y, Wu J, Chen C, Corrosion Sci., 87, 397 (2014)
- Tang J, Shao Y, Guo J, Zhang T, Meng G, Wang F, Corrosion Sci., 52, 2050 (2010)
- Taheri H, Kakooei S, Ismail MC, Dolati A, Casp. J. Appl. Sci. Res., 1(5), 41 (2012)
- Brown S, Parakala S, Nesic SR, CO2 Corrosion in the Presence of Trace Amounts of H2S. NACE-04736, NACE International, 2004.
- Tjelta M, Kvarekval J, Electrochemistry of Mackinawite Electrodes in Sour Aqueous Solutions. Paper No. 9319, NACE International, 2017.
- Sun W, Russ College of Engineering and Technology of Ohio University, 2006 November.
- Brown B, Nesic S, Aspects of Localized Corrosion in an H2S/CO2 Environment. C2012-0001559, NACE International, 2012.
- Sardisco JB, Wright WB, Greco EC, Corrosion, 19(10), 354 (1963)
- Ning J, Investigation of polymorphous iron sulfide in H2S corrosion of mild steel, Ohio University Advisory Board Meeting (2013).
- Abayarathna D, Naraghi AR, Wang S, Corrosion, NACE, Houston, TX, Paper no. 417, 2005.
- Sun W, Nesic S, NACE Annual Corrosion Conference, Paper 07655, (2007).
- Zheng Y, Ning J, Brown B, Nesic S, Corrosion, 72(5), 679 (2016)
- Smith SN, Brown BN, Sun WN, Corrosion, NACE International, Houston, Texas, Paper no. 11081 2011.
- Hashizume S, Inohara Y, Masamura K, Corrosion, NACE, Houston, TX, Paper no. 00130 2000.
- Kvarekval J, Svenningsen G, Corrosion, NACE, Houston, TX, Paper no. 9318 2017.
- Wilhelm SM, Kane RD, J. Pet. Technol. (October), 1055 (1986).
- Askari M, Aliofkhazraei M, Ghaffari S, Hajizadeh A, J. Nat. Gas Sci. Eng., 58, 92 (2018)
- Corrosion Inhibitors Market Analysis by Product (Organic, Inorganic), By Application (Water-based, Oil-based), By End-use (Power Generation, Oil & Gas, Metal Processing, Pulp & Paper, Chemical Processing) and Segment Forecasts to 2024.
- www.freepatentsonline.com.
- www.google.com/patents.
- www.epo.org.
- www.wipo.int.
- http://Ip.espacenet.com.
- https://search.uspto.gov.
- Camp EQ, Corrosion, 4(8), 37 (1948)
- Gardner FT, Clothier AT, Coryell F, Corrosion, 6(2), 58 (1950)
- Menaul PL, Dunn TH, Soc. Pet. Eng., 165(01), 26 (1946)
- Moyer MI, Herah JM. Formaldehyde corrosion inhibitor compositions. US Patent 2496594, 1950.
- Breston JN, Barton JK, Prod. Mon., 12(1), 13 (1947)
- Heck ET, Barton JK, Howell WE, American Petroleum Institute, 1949 API-49-346.
- Breston JN, American Petroleum Institute, 1949 API-49-334.
- Blair CM, Mako E, Society of Petroleum Engineers Symposium on Handling of Oilfield Water, 4.5 December 1972, Los Angeles, California, 2019 Document ID: SPE-4222-MS.
- Tiwari L, Society of Petroleum Engineers International Symposium on Oilfield Corrosion, 13 May 2005, Aberdeen, United Kingdom, 2019 Document ID: SPE-95081-MS.
- Papir YS, Schroeder AH, Stone PJ, Society of Petroleum Engineers International Symposium on Oilfield Chemistry, 8.10 February 1989, Houston, TX, 2019 Document ID: SPE-18489-MS.
- Blair CM, Groves W, Gross WF. Processes for preventing corrosion and corrosion inhibitors. US Patent No.: 2,466,517, April, 1949.
- Bennett HH, Corrosion, 11(2), 19 (1955)
- Caldwell JA, Lytle ML, Corrosion, 12(2), 23 (1956)
- White JL, Goddard JE, Phillips HM, Society of Petroleum Engineers-AIME Anadarko Baain/Oklahoma City Joint Meeting, 18.19 November 1971, Oklahoma city, Okla., Nov. 18.19, 1971 Document ID: 3672-PA SPE.
- Savoy MG. Inhibitors against hydrogen sulfide and brine corrosion. US Patent 2593057, 1952.
- Zhao J, Duan H, Jiang R, Corrosion Sci., 91, 108 (2015)
- Hongbing H, Zhongal Y, Chem. Eng. Oil Gas, 4 (1996)
- Barczak M, Microporous Mesoporous Mater. (2019).
- Dai YX, Lv FN, Wang B, Chen Y, Polymer, 145, 454 (2018)
- Ziarani GM, Moradi R, Lashgari N, Kruger HG, Amine Dyes, Metal-Free Synthetic Organic Dyes, Elsevier, pp.19 2018.
- Farahani MHDA, Chung TS, Chem. Eng. J., 345, 174 (2018)
- Mok WY, Jenkins AE, Keenan SR, Gamble CG, Paper No. 05289, NACE International Corrosion Conference & Expo (2005).
- Stewart S, Jovancicevic V, Menendez C, Moloney J, Wamburi W, Paper No. 10274, NACE International Corrosion Conference & Expo (2010).
- Kashkovskiy RV, Kuznetsov YI, Kazansky LP, Corrosion Sci., 64, 126 (2012)
- Zetlmeisl MJ, Fahey WF. Corrosion inhibitors. US Patent 4877578, 1989.
- Dunlop AK, Vasilevskis J. Inhibiting corrosion with macrocyclic tetramine corrosion inhibitors. US Patent 3977981, 1979.
- Nieh ECY. Vanadium-amine corrosion inhibitor system for sour gas conditioning solutions. US Patent 4372873, 1983.
- Rozenfeld IL, Brusnikina VM, Frolova LV, Lyashenko AA, Sokolov JV, Bocharov BV, Fokin AV, Legezin NE, Dergobuzova EV, Altshuler BN, Zelenaya SA, Korobova ES. Protecting steel and ferrous metals against H2S corrosion. US Patent 4404167, 1983.
- Coffey MD, Kelly MY, Kennedy WC, Method and composition for corrosion. US Patent 4493775, 1985.
- Martinez RG, Treybig DS, Glass TW. Corrosion inhibitors. US Patent 4762627, 1988.
- Treybig DS, Glass TW. Corrosion inhibitors. US Patent 4784796, 1988.
- Martinez RG, Treybig DS, Glass TW. Corrosion inhibitors. US Patent 4837323, 1989.
- McLaughlin BD, Yan TY. Corrosion inhibitors. US Patent 5472638, 1995.
- Hoppe RL, Martin RL, Pakulski MK, Schaffer TD. Method of inhibiting and/or preventing corrosion in oilfield treatment applications. US Patent US7481276B2, 2009.
- Johnson M. Sour-gas sweetening solutions and methods. US Patent US7951347B2, 2011.
- Bennett BM, Mancuso SD. Oilfield cleaner and corrosion inhibitor comprising a polyamine sulfonic acid salt. US Patent US9303236B2, 2016.
- Corrosion inhibitors; https://www.slb.com/services/drilling/drilling_fluid/df_products/corrosion_inhibitors.aspx. (Accessed 8 November 2018).
- Al-Baker N, Shawabkeh R, Rihan R, Corros. Eng. Sci. Technol., 46(7), 767 (2011)
- Solvay products; https://www.solvay.com/en/search/products?s=Ercabac +50. (Accessed 8 November 2018).
- Zhang C, Zhao J, Corrosion Sci., 126, 247 (2017)
- Sharp PS, Yarborough L. Inhibiting corrosion in high temperature and high pressure gas wells. Patent No. WO 80/02700, 1980.
- Butwell KF, Kubec DJ, Sigmund PW, Hydrocarbon Process. (March) (1982).
- Valone FW. Corrosion inhibiting system containing alkoxylated dialkylphenol amines. US Patent 4846980, 1989.
- Rana SN, University of Technology, Ministry of Higher Education & Scientific Research, Republic of Iraq.
- Cassidy JM, Kiser CE, Lane JL. Corrosion inhibitor compositions comprising an aldehyde and a thol and/or anamine functionalized ring structure and associated methods. US patent US 7,994,099 B2, 2011.
- Shetnev A, Osipyan A, Baykov S, Sapegin A, Chirkova Z, Korsakov M, Petzer A, Engelbrecht I, Petzer JP, Bioorg. Med. Chem. Lett., 29, 40 (2018)
- Trulli L, Sciubba F, Fioravanti S, Tetrahedron, 74(5), 572 (2018)
- Pournazari S, Moayed MH, Rahimizadeh M, Corrosion, 69(12), 1195 (2013)
- Szyprowski AJ, Br. Corros. J., 37(2), 141 (2002)
- Rivera-Grau LM, Casales M, Regla I, Ortega-Toledo DM, Ascencio-Gutierrez JA, Gonzalez-Rodriguez JG, Martinez-Gomez L, Int. J. Electrochem. Sci., 7(12), 12391 (2012)
- Edwards A, Osborne C, Webster S, Klenerman D, Joseph M, Ostovar P, Doyle M, Corrosion Sci., 36(2), 315 (1994)
- Diaz EF, Gonzalez-Rodriguez JG, Martinez-Villafane A, Gaona-Tiburcio C, J. Appl. Electrochem., 40(9), 1633 (2010)
- Szyprowski AJ, Br. Corros. J., 35(2), 155 (2000)
- Galicia P, Gonzalez I, Electrochim. Acta, 50(22), 4451 (2005)
- Gusmano G, Labella P, Montesperelli G, Privitera A, Tassinari S, Corrosion, NACE International, pp.576 2006.
- Zhao X, Chen C, Yu H, Chen Q, Paper No. 11029, NACE International Corrosion Conference & Expo (2018).
- Ramachandran S, Tsai BL, Blanco M, Chen H, Tang YC, Goddard WA, Langmuir, 12(26), 6419 (1996)
- Tripathy DB, Mishra A, Clark J, Farmer T, C. R. Chimie, 21, 112 (2018)
- Meyer GR. Corrosion inhibition compositions. US Patent US 6448411 B1, 2001.
- Martins RL, McMahon JA, Oude Alink BA. Biodegradable corrosion inhibitors of low toxicity. European Patent EP 0 651 074 B1, 1998.
- Aguilar JLRB, Cervantes AT, Martinez AE, Ordonez NN. Corrosion inhibitors derived from vegetable oils and it’s process of obtaining. US Patent US 2017/0029960 A1, 2017.
- Singl WP, Bockris JO, Toxicity issues of organic corrosion inhibitors: application of QSAR model, Corrosion, NACE, Houston, TX, Paper No. 225 1996.
- Taj S, Siddekha A, Papavinasam S, Revie RW, Some natural products as green corrosion inhibitors. NACE/07, Paper No. 07630, NACE International Conference & Expo (2007).
- Lucio-Garcia MA, Gonzalez-Rodriguez JG, Martinez-Villafane A, Dominguez-Patino G, Neri-Flores MA, Chacon-Nava JG, J. Appl. Electrochem., 40(2), 393 (2010)
- Zhizhong Z, Ganxiang Z. Preparation method of high containing H2S/CO2 corrosion inhibitor. Chinese Patent CN106588776A, 2016.
- Li ZJ, Sun Q, Wang X, Chengxian YY, Cai HY, Fagen RL. High-temperature corrosion inhibitor for H2S-HCl-H2O system and preparation method of hightemperature corrosion inhibitor. Chinese Patent CN104451699B, 2016.
- Zhang X, Guo L, Li S, Xu J, Wu B, Xue B, Chen H. Hydrogen sulfide with a water-soluble anti-corrosion inhibitors. Chinese Patent CN103409122B, 2015.
- Maddox J, Schoen W. Composition and process for inhibiting corrosion in oil wells. US Patent 3623979, 1971.
- Maddox J, Water soluble corrosion inhibitors for well fluids. US Patent 3629104, 1971.
- Oppenlaender K, Stork K, Mannheim B. Imidazoline based corrosion inhibitors which inhibit corrosion caused by CO2 and H2S. US Patent 4388214, 1983.
- Alwadani N, Fatehi P, Carbon Resour. Convers., 1, 126 (2018)
- Chang ZY, Chen XM, Peng YJ, Miner. Eng., 121, 66 (2018)
- Leppinen JO, Basilio CI, Yoon RH, Int. J. Miner. Process., 26, 259 (1989)
- Jong K, Han Y, Ryom S, Colloids Surf. A: Physicochem. Eng. Asp., 523, 127 (2017)
- Xu J, Zhang Y, Chen H, Wang P, Xie Z, Yao Y, Yan Y, Zhang J, J. Mol. Struct., 1052, 50 (2013)
- Jiao Y, Xu Z, Qiao W, Li Z, Energy Sources Part A-Recovery Util. Environ. Eff., 29(15), 1425 (2007)
- Gao B, Sharma MM, J. Colloid Interface Sci., 404, 80 (2013)
- Gao B, Sharma MM, J. Colloid Interface Sci., 407, 375 (2013)
- Wang XY, Wang JB, Wang YL, Yan HK, Li PX, Thomas RK, Langmuir, 20(1), 53 (2004)
- Meyer GR. Corrosion inhibitor compositions including quaternized compounds. US Patent US6696572B2, 2004
- Meyer GR. Corrosion inhibition compositions. US Patent US 6303079 B1, 2001.
- Gulbrandsen E, Nesic S, Stangeland A, Burchardtt T, Sundfaer B, Hesjevik SM, Skjerve S, Effect of precorrosion on the performance of inhibitors for CO2 corrosion of carbon steel. Paper No. 13, Corrosion 98, NACE International Corrosion Conference & Expo (1998).
- Tiwari L. Mono and bis-ester derivatives of pyridinium and quinolinium compounds as environmentally friendly corrosion inhibitors. US Patent US2011/0003992A1, 2011.
- Moore J, Liu JF, Tang X, Corrosion 2009, NACE International Corrosion Conference & Expo (2009).
- Zhao JM, Li J, Acta Phys. Chim. Sin., 28, 623 (2012)
- Wafts MM, J. Am. Oil Chem. Soc., 67(12), 993 (1990)
- Achary G, Sachin HR, Naik YA, Venkatesha TV, Mater. Chem. Phys., 107(1), 44 (2008)
- Mistry BM, Sahoo SK, Jauhari S, J. Electroanal. Chem., 704, 118 (2013)
- Zhang DS, Li LD, Cao LX, Yang NF, Huang CB, Corrosion Sci., 43, 1627 (2001)
- Li SM, Zhang HR, Liu JH, Trans. Nonferrous Met. Soc. China, 17, 318 (2007)
- El Achouri M, Infante MR, Izquierdo F, Kertit S, Gouttaya HM, Nciri B, Corrosion Sci., 43, 19 (2001)
- Qiu LG, Xie AJ, Shen YH, Corrosion Sci., 47, 273 (2005)
- Migahed MA, elgendy A, EL-Rabiei MM, Nady H, Zaki EG, J. Mol. Struct., 1159, 10 (2018)
- Umoren SA, Solomon MM, Eduok UM, Obot IB, Israel AU, J. Environ. Chem. Eng., 2, 1056 (2014)
- Solomon MM, Umoren SA, Obot IB, Sorour AA, Gerengi H, ACS Appl. Mater. Interfaces, 10, 28112 (2018)
- Musa AY, Mohamad AB, Kadhum AAH, Takriff MS, Tien LT, Corrosion Sci., 53, 3672 (2011)
- Alhaffar MT, Umoren SA, Obot IB, Ali SA, RSC Adv., 8, 1764 (2018)
- Pavithra MK, Venkatesha TV, Vathsals K, Nayana KO, Corrosion Sci., 52, 3811 (2010)
- Tehrani-Bagha AR, Holmberg K, van Ginkel CG, Kean M, J. Colloid Interface Sci., 449, 72 (2015)
- Tehrani-Bagha AR, Oskarsson H, van Ginkel CG, Holmberg K, J. Colloid Interface Sci., 312(2), 444 (2007)
- Asperger RG, Clouse RC. Quaternary salt-polyamine inhibitor for sour gas conditioning solutions. US Patent 4100099, 1978.
- Naraghi A, Obeyesekere N. Polymeric quaternary ammonium salts useful as corrosion inhibitors and biocides. US Patent US2006/0062753A1, 2006.
- Yuan W, Juantao Z, Feng T, Qiang L, Jinheng L, Gang W, Qiang B. Suitable for oil and gas fields containing H2S / CO2 conveying corrosive environment inhibitor and preparation method line. Chinese Patent CN 105483708B, 2018.
- Umoren SA, Solomon MM, J. Environ. Chem. Eng., 5(1), 246 (2016)
- Fares MM, Maayta AK, Al-Mustafa JA, Corrosion Sci., 65, 223 (2012)
- Jeyaprabha C, Sathiyanarayanan S, Venkatachari G, J. Electroanal. Chem., 583(2), 232 (2005)
- Umoren SA, Ebenso EE, Mater. Chem. Phys., 106(2-3), 387 (2007)
- Umoren SA, Solomon MM, Udosoro II, Udoh AP, Cellulose, 17, 635 (2010)
- Banerjee S, Srivastava V, Singh MM, Corrosion Sci., 59, 35 (2012)
- Hefni HHH, Azzam EM, Badr EA, Hussein M, Tawfik SM, Int. J. Biol. Macromol., 83, 297 (2016)
- Azghandi MV, Davoodi A, Farzi GA, Kosari A, Corrosion Sci., 64, 44 (2012)
- Vetter OJ, Kandarpa V, Harouaka A, Prediction of Scale Problems Due to Injection of Incompatible Waters SPE-7794-PA,, Society of Petroleum Engineers, 1982. https://doi.org/10.2118/7794-PA.
- Kudryavtsev DB, Panteleeva AR, Yurina AV, Lukashenko SS, Khodyrev YP, Galiakberov RM, Khaziakhmetov DN, Kudryavtseva LA, Pet. Chem., 49(3), 193 (2009)
- Larsen AL. Film forming hydrazine-containing corrosion inhibitor. US Patent 3770055, 1973.
- Incorvia MJ. Thiol ester corrosion inhibition system. US Patent 4744948, 1988.
- Fischer GC. Corrosion inhibitor compounds containing inhibitor prepared from amino substituted pyrazines and epoxy compounds. US Patent 4895702, 1990.
- Oude Alink BAM, Martin RL, Dougherty JA, Outlaw BT. Volatile corrosion inhibitor for gas lift. US Patent 5197545, 1993.
- Meyer GR. Zwitterionic water-soluble substituted imine corrosion inhibitors. US Patent US6171521B1, 2001.
- Taylor GN. H2S scavengers with synergistic corrosion inhibition. US Patent US 2015/0034319A1, 2015.
- Ropital F, Mater. Corros, 60(7), 495 (2009)
- Moloney J, Corrosion inhibiting compositions to mitigate corrosion in environments containing elemental sulfur and/or polysulfides US 2017/0247798A1, (2017).
- Lewis RJ, Sax’s Dangerous Properties of Industrial Materials, 11th edition, Wiley-Interscience, Wiley & Sons, Inc., Hoboken, NJ, p.3407 2004.
- Obot IB, Kaya S, Kaya C, Tuzun B, Physica E, 80, 82 (2016)
- Kumar AM, Babu RS, Obot IB, Gasem ZM, RSC Adv., 5, 19264 (2015)
- Gece G, Bilgic S, Corrosion Sci., 52, 3335 (2010)
- Schmitt G, Saleh AO, Corrosion, Paper No. 00335 (2000).
- Gowri S, Sathiyabama J, Rajendran S, Eur. Chem. Bull., 1, 470 (2012)
- Solomon MM, Gerengi H, Umoren SA, ACS Appl. Mater. Interfaces, 9, 6376 (2017)
- Rani BEA, Basu BBJ, Int. J. Corros., 2012, 1 (2012)
- Sangeetha M, Rajendran S, Sathiyabama J, Krishnaveni A, Portugaliae Electrochimica Acta, 31(1), 41 (2013)
- Fattah-alhosseini A, Noori M, Measurement, 94, 787 (2016)
- Yildiz M, Gerengi H, Solomon MM, Kaya E, Umoren SA, Chem. Eng. Commun., 205(4), 538 (2018)
- Das RN, Roy K, Mol. Divers., 17, 151 (2013)
- Siedlecka EM, Stepnowski P, Environ. Sci. Pollut. Res. Int. 16, 453 (2009); given-name>Stepnowski P, Environ. Sci. Pollut. Res. Int., 16, 453 (2009).