-C12, BMS-8 Protocol Figure S2: 1 H NMR spectrum of three,4-BHOT, Figure S3: APCI-MS
-C12, Figure S2: 1 H NMR spectrum of 3,4-BHOT, Figure S3: APCI-MS spectrum of EDOT-C12, Figure S4: GPC calibration curve, Figure S5: GPC elugrams for PEDOT-C12, Figure S6: GPC elugrams for PBHOT, Figure S7: GPC elugrams for P3HT. Author Contributions: Conceptualization, D.D.H. and J.A.I.; data curation, M.A.N.; formal evaluation, D.D.H., M.A.N. and J.A.I.; funding acquisition, M.A.N., E.E.M. and J.A.I.; investigation, C.C.C., D.J.S., E.E.M., V.S. and J.A.I.; methodology, D.D.H. and J.A.I.; project administration, J.A.I.; supervision, J.A.I.; validation, C.C.C.; writing–original draft, D.D.H., E.E.M., V.S. and J.A.I.; writing–review and editing, D.D.H., D.J.S., E.E.M. and J.A.I. All authors have study and agreed to the published version on the manuscript. Funding: This study was funded by the National Science Foundation Partnership for Analysis and Education in Materials, grant #2122041 plus the Texas State University Study Enhancement Plan, grant #9000002766. M.A.N., D.J.S. and E.E.M. received Texas State University Undergraduate Research Fellowship funding (grant #9000002520, 9000002519, and 9000002733, respectively) in assistance of this analysis. Institutional Critique Board Statement: Not applicable. Informed Consent Statement: Not applicable. Information Availability Statement: Data is contained within the post or Supplementary Supplies. Acknowledgments: The authors would like to thank William Brittain, David Irvin, and Tania Betancourt for GPC help and William Hoffmann and Michael Godwin for assistance with mass spectral analyses. Conflicts of Interest: The authors declare no conflict of interest.
Received: 18 August 2021 Accepted: 13 October 2021 Published: 18 OctoberPublisher’s Note: MDPI stays neutral with regard to jurisdictional claims in published maps and institutional YC-001 Technical Information affiliations.Copyright: 2021 by the authors. Licensee MDPI, Basel, Switzerland. This article is definitely an open access article distributed beneath the terms and conditions in the Creative Commons Attribution (CC BY) license (https:// creativecommons.org/licenses/by/ 4.0/).Resulting from its comparatively low cost and versatility, reinforced concrete is usually utilised in the construction market [1]. Despite its superb compressive force, concrete alone is unable to withstand the needed tensile load and reinforcements are needed. The combined properties of concrete and steel reinforcements offer high compression strength at the same time as enhanced mechanical properties, therefore producing it a perfect composite material to get a multitude of applications and structures [2]. The corrosion of those steel reinforcements is deemed to become the greatest threat to the integrity of those structures and their service life [3,4]. Numerous solutions have been implemented to deter corrosion, for example corrosion inhibitors and numerous other folks [60]. Corrosion inhibitors for steel in concrete could be utilised by addition for the cement paste, referred to as admixed corrosion inhibitor (ACI) [11,12], or by applying with brush or spray for the hardened concrete surface diffusing through the pores on the concrete, called migrating corrosion inhibitor (MCI), see Figure 1 [135]. Examples of ACIs are amines and fatty acid esters [16], which act by means of a double mechanism, initially, by decreasing the ingress from the chlorine ion by way of the hydrophobic house in the esters and second, by forming a protective layer by means of the ion-dipole interaction ( H – N – ) [17].Components 2021, 14, 6168. https://doi.org/10.3390/mahttps://ww.