Piezoelectric approaches to organic polymeric materials

Ali, Mark Rigel R; Tigno, Szeemaine D; Caldona, Eugene B

doi:10.1002/pi.6601

Cited by 9 publications

(1 citation statement)

References 127 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The chemical composition of a surface also primarily influences its surface energy. ,, For instance, Zisman et al demonstrated that the surface energy decreases with increasing fluorine content in a polymer, following the sequence: CH 2 > CH 3 > CF 2 > CF 3 . , Fluoropolymers exemplify this principle such that the presence of highly polarized and inert C–F bonds promotes material stability and offers a multifaceted defense mechanism against environmental degradation. − This attribute renders them invaluable for designing insulating layers that promote ionic permeability and prevent electron transfer between the metal and corrosive medium, thereby averting the oxidation process. − Polyvinylidene fluoride (PVDF) and its CF 3 -containing copolymer, PVDF- co -hexafluoropropylene (PVDF–HFP), represent two exemplary fluoropolymers extensively employed in the coating manufacturing industry. Renowned for their exceptional inertness, these polymers offer remarkable corrosion and wear resistance, alongside mechanical integrity, film-forming characteristics, low surface energy, and thermal stability. , The synergy between PVDF’s durability and chemical resistance and HFP’s inclusion promoting ease of processability yields coatings that boast mechanical flexibility, outstanding protective properties, and lower surface energy. , Despite their inherently low surface energy, these fluoropolymers alone cannot achieve superhydrophobicity. , Customizing rough surfaces using materials with low surface energy or generating a rough surface on hydrophobic materials is typically employed to achieve superhydrophobicity.…”

Section: Introductionmentioning

confidence: 99%

Superhydrophobic, Highly Adhesive, and Corrosion-Protective Fluoropolymer-Modified Polythiophene Coatings

Ali,

Honeyman,

Domalanta

et al. 2024

Ind. Eng. Chem. Res.

Self Cite

View full text Add to dashboard Cite

In this study, we introduce an approach aimed at enhancing the adhesion, surface stability, water repellency, and corrosion resistance of electrodeposited polythiophene (PTH) coatings by integrating a thienylsubstituted silane coupling agent as a surface modifier alongside poly-(vinylidene fluoride-co-hexafluoropropylene) as a topcoat. The fluoropolymer inclusion further improves the resultant coating's water repellency, while the utility of a silane coupling agent addresses a crucial, yet often overlooked, issue in polymeric coatings�ensuring strong adhesion to steel substrates. Spectroscopic analyses confirm the silanization of steel, indicating a strong chemical bond between the substrate and coating. Subsequent tape adhesion tests substantiate this finding, revealing minimal coating delamination and corroborating the enhanced adhesion achieved. Even after rigorous cyclic corrosion tests, the coating maintains a consistently high water contact angle (∼163°), demonstrating remarkable stability and durability, while impedance measurements and potentiodynamic polarization unveil a notable increased corrosion resistance (low-frequency impedance modulus, |Z| 0.1 Hz ∼ 7.2 MΩ cm 2 , corrosion potential, E CORR ∼ 0.14 V, and corrosion current, I CORR ∼ 0.76 nA). Our approach, unprecedented in existing literature, not only extends the lifespan of PTH coatings but also broadens their utility in corrosion-prone environments. Overall, this study sets a new benchmark for developing durable and hydrophobic protective coatings, offering a promising avenue for future research and industrial applications.

show abstract

Section: Introductionmentioning

confidence: 99%

Superhydrophobic, Highly Adhesive, and Corrosion-Protective Fluoropolymer-Modified Polythiophene Coatings

Ali,

Honeyman,

Domalanta

et al. 2024

Ind. Eng. Chem. Res.

Self Cite

View full text Add to dashboard Cite

show abstract

Itaconic anhydride functionalized cyanoethyl cellulose with crosslinked structure enabled improved dielectric properties

Cheng,

Wang,

Yang

et al. 2024

Polymer International

View full text Add to dashboard Cite

As a type of cellulose ether, cyanoethyl cellulose (CEC) is considered to be a promising candidate for polymer dielectrics due to its sustainable nature and high dielectric constant induced by the cyano groups. However, the relatively high conduction loss of CEC arising from the charge motion across the polymer degrades its dielectric properties. In this work, we designed and synthesized an all‐organic polymer composite of CEC/itaconic anhydride (ITA) to improve dielectric properties. The CEC matrix was graft functionalized by ITA via an esterification reaction between the anhydride groups of ITA and hydroxyl groups of CEC. Meanwhile, crosslinking structure was also established in the composite by the generation of diester. Significantly improved dielectric constant (εr), elevated breakdown strength (Eb), restrained dielectric loss (tan δ) and decreased conductivity (σ) were observed in the composites compared with unmodified CEC. The εr increased from 17 for pure CEC to 32 for CEC/ITA at 1 kHz, and Eb also soared from 145 MV m−1 for CEC to 226 MV m−1 for the composite. The tan δ reduced from 0.24 for pure CEC to about 0.05 for the composite at 100 Hz. This should be attributed to the molecule trapping centers arising from the high electron affinity ITA and the formation of crosslinked networks as well as hydrogen bonding, which impeded the electric conduction. It also provided additional advantages of better dielectric properties for the CEC/ITA composites than pure CEC at high temperatures, which may offer inspiration for the design and preparation of bio‐based dielectrics for high temperatures. © 2024 Society of Chemical Industry.

show abstract

Interfacially adhesive corrosion protective fluoropolymer coatings modified by soybean extract

Domalanta,

Ferdousi,

Delas Armas

et al. 2024

Chemical Engineering Journal

View full text Add to dashboard Cite

Piezoelectric approaches to organic polymeric materials

Cited by 9 publications

References 127 publications

Superhydrophobic, Highly Adhesive, and Corrosion-Protective Fluoropolymer-Modified Polythiophene Coatings

Superhydrophobic, Highly Adhesive, and Corrosion-Protective Fluoropolymer-Modified Polythiophene Coatings

Itaconic anhydride functionalized cyanoethyl cellulose with crosslinked structure enabled improved dielectric properties

Interfacially adhesive corrosion protective fluoropolymer coatings modified by soybean extract

Contact Info

Product

Resources

About