Characterization of Mechanical Degradation in Perfluoropolyether Film for Its Application to Antifingerprint Coatings

Min, Kyoungmin; Han, Jungim; Park, Byungha; Cho, Eunseog

doi:10.1021/acsami.8b13159

Cited by 12 publications

(19 citation statements)

References 33 publications

(47 reference statements)

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“…9−11 Molecular dynamic simulations were often applied to determine the lubricity properties 12,13 as for silane-terminated PFPAE films to investigate the intrachain and interchain interactions in view of antifingerprint coatings. 14 This highlights the usefulness of the chemical modification of PFPAEs for lubricant applications as well as in confined spaces even in a simulated space environment. 15 However, even though their lubricant characteristics are their major advantage, high-performance thermoplastics and thermosets were fabricated after their chemical modification.…”

Section: Introductionmentioning

confidence: 90%

“…They also displayed better results than poly(dimethylsiloxane) and poly(butadiene) by combining low coefficient of frictions and a facilitated lateral motion . On the other hand, functionalized PFPAEs having four hydroxyl, cyclotriphosphazene, piperonyl, or even 3-phenylpropyl groups were examined depending on their adhesion, mobility, or humidity resistance properties and also compared to nonfunctionalized PFPAEs. − Molecular dynamic simulations were often applied to determine the lubricity properties , as for silane-terminated PFPAE films to investigate the intrachain and interchain interactions in view of antifingerprint coatings . This highlights the usefulness of the chemical modification of PFPAEs for lubricant applications as well as in confined spaces even in a simulated space environment .…”

Section: Introductionmentioning

confidence: 99%

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Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

et al. 2021

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Perfluoropolyalkylethers (PFPAEs) are a class of fluorinated polymers having −OCF2–, −OCF2CF2–, and −OCF2CF(CF3)– as common chain units. The ether linkages distinguish them from other famous fluorinated polymers such as poly(tetrafluoroethylene). Their higher mobility highlighted by below zero glass transition temperatures permit them to be noncrystalline, which makes them easy to use for many applications. They possess interesting tribological properties, combined with an excellent thermal and chemical stability, make them very useful as lubricants. However, after chemical modifications, they also demonstrated to be very useful in numerous applications as surfactants, electrolytes, high performance coatings, vitrimers, or microfluidic devices, to give a few examples. This Perspective aims to summarize all the chemical modifications reported on these PFPAEs to provide a new insight into their potential utility in emerging fields. Indeed, the end group can modulate the properties of PFPAE-based materials such as lubricity, superhydrophobicity, biofouling, antibacterial activity, amphiphilicity, and the ability to react further with comonomers under photochemical and thermal processes. It can also modulate their intrinsic properties such as viscosity and solubility in common organic solvents. The chemical modifications are sorted in five main parts: the condensation reactions, the nucleophilic reactions, the click chemistry reactions, the radical reactions, and finally reactions going through other mechanisms or requiring a multistep process. They can be employed as such or for further polymerization processes depending on the targeted application. Examples of applications are thoroughly described to demonstrate their current usefulness and to help provide direction for their future use.

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Section: Introductionmentioning

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

et al. 2021

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“…For instance, by studying the characterization of mechanical degradation in the perfluoropolyether film, Min et al found that, during the structural relaxation, OH in silane-functionalized perfluoropolyether (SPFPE) formed a H-bond with O on the SiO 2 , the Si−C bond in the chain simultaneously broke, and the end (C) of the broken residue formed a new bond with O in the silane agent (C−O bond). 52 Ahn et al indicated that each individual SPFPE molecule tended to be chemisorbed on the SiO 2 surface by forming a single siloxane bond, and the H-bond between the remaining silanol branches and the hydroxyl groups on the surface induced the shorter bond length of the first formed siloxane bond and then broke to form the second siloxane bond. 53 By comparing with the results, it is considered that the functional groups of OFMs easily interact with the surface silanol groups, and the H-bonds between polar groups and surface silanol groups (in Figure S3) would probably break and consequently facilitate the formation of new chemical bonds.…”

Section: ■ Methodologymentioning

confidence: 99%

Understanding Adsorption Behaviors of Organic Friction Modifiers on Hydroxylated SiO₂ (001) Surfaces: Effects of Molecular Polarity and Temperature

et al. 2020

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Molecular dynamics simulations are used to investigate the physisorption of organic friction modifiers (OFMs) lubricated by 1-decene trimer (PAO4) representing a base oil and confined between hydroxylated SiO2 (001) surfaces. The results indicate that OFM molecules form dense, tendentiously vertical monolayer films at low temperature but loose adsorption layers at high temperature, particularly for R-NH2 with weaker molecular polarity. The structural information is quantitatively clarified by mass density profiles, radial distribution function, and probability distributions of an end-to-end distance at a perpendicular-to-surface direction. The movement performance of lubricant, reflected by the thickness of the organic part and radius of gyration of PAO4 molecules, strongly depends on temperature. The adsorption amount of OFM molecules decreases dramatically with lowering OFM polarity and increasing temperature above the critical desorption temperatures of about 320, 373, and 453 K for amine (R-NH2), alcohol (R-OH), and acid (R-COOH), respectively. The interaction energies of the OFM-surface decrease continuously for the R-NH2 system with temperature and decrease rapidly as temperature exceeds a critical value for both R-OH and R-COOH systems. The single-molecule geometry optimization validates the significant role of the electrostatic and hydrogen-bond attractions in molecular adsorption. Therefore, the OFMs with stronger polarity (like R-COOH) present stronger adsorption and better temperature resistance. The findings in this work are of particular value and provide a guideline in designing and engineering novel OFM additives for extreme lubrication conditions.

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“…The degradation rate depends on the length of polymer chains: short macromolecules like those in K100 have higher mobility (i.e., lower viscosity) which lead to higher degradation rates. Increasing the chain length can slow down degradation reactions (especially mechanical cleavage) [44], thus explaining the retention of amphiphobic properties of K105 and K107. It is also necessary to consider that abrasion tests cause friction and related increase in surface temperature; Krytox 100 is more susceptible to temperature increase than higher Krytox oils, with obvious negative effect on the amphiphobicity of K100.…”

Section: Response To Abrasionmentioning

confidence: 99%

Evaluation of the Durability of Slippery, Liquid-Infused Porous Surfaces in Different Aggressive Environments: Influence of the Chemical-Physical Properties of Lubricants

et al. 2021

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Liquid-repellent surfaces have been extensively investigated due to their potential application in several fields. Superhydrophobic surfaces achieve outstanding water repellence, however their limited durability in severe operational conditions hinders their large-scale application. The Slippery, Liquid-Infused Porous Surface (SLIPS) approach solves many of the durability problems shown by superhydrophobic surfaces due to the presence of an infused liquid layer. Moreover, SLIPS show enhanced repellence towards low surface tension liquids that superhydrophobic surfaces cannot repel. In this perspective, SLIPS assume significant potential for application in harsh environments; however, a systematic evaluation of their durability in different conditions is still lacking in the literature. In this work, we report the fabrication of SLIPS based on a ceramic porous layer infused with different lubricants, namely perfluoropolyethers with variable viscosity and n-hexadecane; we investigate the durability of these surfaces by monitoring the evolution of their wetting behavior after exposure to severe environmental conditions like UV irradiation, chemically aggressive solutions (acidic, alkaline, and saline), and abrasion. Chemical composition and viscosity of the infused liquids prove decisive in determining SLIPS durability; especially highly viscous infused liquids deliver enhanced resistance to abrasion stress and chemical attack, making them candidates for applicable, long-lasting liquid-repellent surfaces.

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Characterization of Mechanical Degradation in Perfluoropolyether Film for Its Application to Antifingerprint Coatings

Cited by 12 publications

References 33 publications

Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

Understanding Adsorption Behaviors of Organic Friction Modifiers on Hydroxylated SiO₂ (001) Surfaces: Effects of Molecular Polarity and Temperature

Evaluation of the Durability of Slippery, Liquid-Infused Porous Surfaces in Different Aggressive Environments: Influence of the Chemical-Physical Properties of Lubricants

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Characterization of Mechanical Degradation in Perfluoropolyether Film for Its Application to Antifingerprint Coatings

Cited by 12 publications

References 33 publications

Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

Diversity of Synthetic Approaches to Functionalized Perfluoropolyalkylether Polymers

Understanding Adsorption Behaviors of Organic Friction Modifiers on Hydroxylated SiO2 (001) Surfaces: Effects of Molecular Polarity and Temperature

Evaluation of the Durability of Slippery, Liquid-Infused Porous Surfaces in Different Aggressive Environments: Influence of the Chemical-Physical Properties of Lubricants

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Understanding Adsorption Behaviors of Organic Friction Modifiers on Hydroxylated SiO₂ (001) Surfaces: Effects of Molecular Polarity and Temperature