Corrosion Resistance of Sulfur–Selenium Alloy Coatings

Sandhya Susarla; Govinda Chilkoor; Jawahar R. Kalimuthu; M. A.S.R. Saadi; Yufei Cui; Taib Arif; Thierry Tsafack; Anand B. Puthirath; Pawan Sigdel; Bharat Jasthi; Parambath M. Sudeep; Leiqing Hu; Aly Hassan; Samuel Castro-Pardo; Morgan Barnes; Soumyabrata Roy; Rafael Verduzco; Md Golam Kibria; Tobin Filleter; Haiqing Lin; Santiago D. Solares; Nikhil Koratkar; Venkataramana Gadhamshetty; Muhammad M. Rahman; Pulickel M. Ajayan

doi:10.1002/adma.202104467

Corrosion Resistance of Sulfur–Selenium Alloy Coatings

Sandhya Susarla
, Govinda Chilkoor
, Jawahar R. Kalimuthu
, M. A.S.R. Saadi
, Yufei Cui
, Taib Arif
, Thierry Tsafack
, Anand B. Puthirath
, Pawan Sigdel
, Bharat Jasthi
, Parambath M. Sudeep
, Leiqing Hu
, Aly Hassan
, Samuel Castro-Pardo
, Morgan Barnes
, Soumyabrata Roy
, Rafael Verduzco
, Md Golam Kibria
, Tobin Filleter
, Haiqing Lin

Santiago D. Solares, Nikhil Koratkar, Venkataramana Gadhamshetty, Muhammad M. Rahman, Pulickel M. Ajayan

Department of Chemical and Biological Engineering

University at Buffalo

Rice University
South Dakota School of Mines & Technology
University of Toronto
SUNY Buffalo
University of Calgary
George Washington University
Rensselaer Polytechnic Institute

Research output: Contribution to journal › Article › peer-review

41 Scopus citations

Abstract

Despite decades of research, metallic corrosion remains a long-standing challenge in many engineering applications. Specifically, designing a material that can resist corrosion both in abiotic as well as biotic environments remains elusive. Here a lightweight sulfur–selenium (S–Se) alloy is designed with high stiffness and ductility that can serve as an excellent corrosion-resistant coating with protection efficiency of ≈99.9% for steel in a wide range of diverse environments. S–Se coated mild steel shows a corrosion rate that is 6–7 orders of magnitude lower than bare metal in abiotic (simulated seawater and sodium sulfate solution) and biotic (sulfate-reducing bacterial medium) environments. The coating is strongly adhesive, mechanically robust, and demonstrates excellent damage/deformation recovery properties, which provide the added advantage of significantly reducing the probability of a defect being generated and sustained in the coating, thus improving its longevity. The high corrosion resistance of the alloy is attributed in diverse environments to its semicrystalline, nonporous, antimicrobial, and viscoelastic nature with superior mechanical performance, enabling it to successfully block a variety of diffusing species.

Original language	English
Article number	2104467
Journal	Advanced Materials
Volume	33
Issue number	51
DOIs	https://doi.org/10.1002/adma.202104467
State	Published - Dec 23 2021

Keywords

corrosion resistant coating
damage recovery
sulfur–selenium (S–Se) alloys

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Susarla, S., Chilkoor, G., Kalimuthu, J. R., Saadi, M. A. S. R., Cui, Y., Arif, T., Tsafack, T., Puthirath, A. B., Sigdel, P., Jasthi, B., Sudeep, P. M., Hu, L., Hassan, A., Castro-Pardo, S., Barnes, M., Roy, S., Verduzco, R., Kibria, M. G., Filleter, T., ... Ajayan, P. M. (2021). Corrosion Resistance of Sulfur–Selenium Alloy Coatings. Advanced Materials, 33(51), Article 2104467. https://doi.org/10.1002/adma.202104467

@article{21800abb67ff4745aa547a6804c7c07b,

title = "Corrosion Resistance of Sulfur–Selenium Alloy Coatings",

abstract = "Despite decades of research, metallic corrosion remains a long-standing challenge in many engineering applications. Specifically, designing a material that can resist corrosion both in abiotic as well as biotic environments remains elusive. Here a lightweight sulfur–selenium (S–Se) alloy is designed with high stiffness and ductility that can serve as an excellent corrosion-resistant coating with protection efficiency of ≈99.9\% for steel in a wide range of diverse environments. S–Se coated mild steel shows a corrosion rate that is 6–7 orders of magnitude lower than bare metal in abiotic (simulated seawater and sodium sulfate solution) and biotic (sulfate-reducing bacterial medium) environments. The coating is strongly adhesive, mechanically robust, and demonstrates excellent damage/deformation recovery properties, which provide the added advantage of significantly reducing the probability of a defect being generated and sustained in the coating, thus improving its longevity. The high corrosion resistance of the alloy is attributed in diverse environments to its semicrystalline, nonporous, antimicrobial, and viscoelastic nature with superior mechanical performance, enabling it to successfully block a variety of diffusing species.",

keywords = "corrosion resistant coating, damage recovery, sulfur–selenium (S–Se) alloys",

author = "Sandhya Susarla and Govinda Chilkoor and Kalimuthu, \{Jawahar R.\} and Saadi, \{M. A.S.R.\} and Yufei Cui and Taib Arif and Thierry Tsafack and Puthirath, \{Anand B.\} and Pawan Sigdel and Bharat Jasthi and Sudeep, \{Parambath M.\} and Leiqing Hu and Aly Hassan and Samuel Castro-Pardo and Morgan Barnes and Soumyabrata Roy and Rafael Verduzco and Kibria, \{Md Golam\} and Tobin Filleter and Haiqing Lin and Solares, \{Santiago D.\} and Nikhil Koratkar and Venkataramana Gadhamshetty and Rahman, \{Muhammad M.\} and Ajayan, \{Pulickel M.\}",

note = "Publisher Copyright: {\textcopyright} 2021 Wiley-VCH GmbH",

year = "2021",

month = dec,

day = "23",

doi = "10.1002/adma.202104467",

language = "English",

volume = "33",

journal = "Advanced Materials",

issn = "0935-9648",

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Susarla, S, Chilkoor, G, Kalimuthu, JR, Saadi, MASR, Cui, Y, Arif, T, Tsafack, T, Puthirath, AB, Sigdel, P, Jasthi, B, Sudeep, PM, Hu, L, Hassan, A, Castro-Pardo, S, Barnes, M, Roy, S, Verduzco, R, Kibria, MG, Filleter, T, Lin, H, Solares, SD, Koratkar, N, Gadhamshetty, V, Rahman, MM & Ajayan, PM 2021, 'Corrosion Resistance of Sulfur–Selenium Alloy Coatings', Advanced Materials, vol. 33, no. 51, 2104467. https://doi.org/10.1002/adma.202104467

TY - JOUR

T1 - Corrosion Resistance of Sulfur–Selenium Alloy Coatings

AU - Susarla, Sandhya

AU - Chilkoor, Govinda

AU - Kalimuthu, Jawahar R.

AU - Saadi, M. A.S.R.

AU - Cui, Yufei

AU - Arif, Taib

AU - Tsafack, Thierry

AU - Puthirath, Anand B.

AU - Sigdel, Pawan

AU - Jasthi, Bharat

AU - Sudeep, Parambath M.

AU - Hu, Leiqing

AU - Hassan, Aly

AU - Castro-Pardo, Samuel

AU - Barnes, Morgan

AU - Roy, Soumyabrata

AU - Verduzco, Rafael

AU - Kibria, Md Golam

AU - Filleter, Tobin

AU - Lin, Haiqing

AU - Solares, Santiago D.

AU - Koratkar, Nikhil

AU - Gadhamshetty, Venkataramana

AU - Rahman, Muhammad M.

AU - Ajayan, Pulickel M.

PY - 2021/12/23

Y1 - 2021/12/23

N2 - Despite decades of research, metallic corrosion remains a long-standing challenge in many engineering applications. Specifically, designing a material that can resist corrosion both in abiotic as well as biotic environments remains elusive. Here a lightweight sulfur–selenium (S–Se) alloy is designed with high stiffness and ductility that can serve as an excellent corrosion-resistant coating with protection efficiency of ≈99.9% for steel in a wide range of diverse environments. S–Se coated mild steel shows a corrosion rate that is 6–7 orders of magnitude lower than bare metal in abiotic (simulated seawater and sodium sulfate solution) and biotic (sulfate-reducing bacterial medium) environments. The coating is strongly adhesive, mechanically robust, and demonstrates excellent damage/deformation recovery properties, which provide the added advantage of significantly reducing the probability of a defect being generated and sustained in the coating, thus improving its longevity. The high corrosion resistance of the alloy is attributed in diverse environments to its semicrystalline, nonporous, antimicrobial, and viscoelastic nature with superior mechanical performance, enabling it to successfully block a variety of diffusing species.

AB - Despite decades of research, metallic corrosion remains a long-standing challenge in many engineering applications. Specifically, designing a material that can resist corrosion both in abiotic as well as biotic environments remains elusive. Here a lightweight sulfur–selenium (S–Se) alloy is designed with high stiffness and ductility that can serve as an excellent corrosion-resistant coating with protection efficiency of ≈99.9% for steel in a wide range of diverse environments. S–Se coated mild steel shows a corrosion rate that is 6–7 orders of magnitude lower than bare metal in abiotic (simulated seawater and sodium sulfate solution) and biotic (sulfate-reducing bacterial medium) environments. The coating is strongly adhesive, mechanically robust, and demonstrates excellent damage/deformation recovery properties, which provide the added advantage of significantly reducing the probability of a defect being generated and sustained in the coating, thus improving its longevity. The high corrosion resistance of the alloy is attributed in diverse environments to its semicrystalline, nonporous, antimicrobial, and viscoelastic nature with superior mechanical performance, enabling it to successfully block a variety of diffusing species.

KW - corrosion resistant coating

KW - damage recovery

KW - sulfur–selenium (S–Se) alloys

UR - https://www.scopus.com/pages/publications/85117012708

U2 - 10.1002/adma.202104467

DO - 10.1002/adma.202104467

M3 - Article

C2 - 34651334

SN - 0935-9648

VL - 33

JO - Advanced Materials

JF - Advanced Materials

IS - 51

M1 - 2104467

ER -

Corrosion Resistance of Sulfur–Selenium Alloy Coatings

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Keywords

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