Surface energy and surface reorganization of perfluorohexylethyl methacrylate/n-alkyl (meth)acrylate copolymers

“… 80 Usually, the surface reorganization of the fluorinated chains is directly associated with the T g or T m of these copolymers. 66 However, no clear relationship can be found in our case (see Table S4 in the ESI † ) beyond the evident difference in T g values of polystyrene and poly(DFMST- co -ST) copolymers.…”

“…As expected, compared with previous results, 36 the CA values decrease significantly when CF 3 is replaced by CF 2 H. The obtained CA results are in satisfactory agreement with those of previous studies on the perfluorohexylethyl(meth)acrylate/ n -alkyl (meth)acrylate copolymers. 66 Gu et al 66 found that the groups (H or CH 3 ) at α-position of (meth)acrylate significantly influenced the contact angle, while the increase of side-chain lengths in the two types of copolymers did not.…”

“…The surface reorganization has been one of the key analyzed properties of the copolymers in recent years. [66][67][68][69][70] Subsequently, to examine such a characteristic of copolymers, the effect of the comonomer structure on the surface energy is studied. To the best of our knowledge, there is a number of reports about the inuence of wettability and oil repellency of uorinated copolymers, depending on their structure.…”

“…To the best of our knowledge, there is a number of reports about the inuence of wettability and oil repellency of uorinated copolymers, depending on their structure. 66,67,71 The advancing and receding contact angles of two liquids (polar and nonpolar) on the copolymer layers and the contact angle hysteresis (CAH) allowed us to get insight on the surface energy of these new uorocopolymers. These layers were prepared via deposition of poly(DFMST-co-ST) copolymers on the glass surface beforehand modied by octadecyltrichlorosilane (OTS) according to a previous publication.…”

Aromatic fluorocopolymers based on α-(difluoromethyl)styrene and styrene: synthesis, characterization, and thermal and surface properties

“… 80 Usually, the surface reorganization of the fluorinated chains is directly associated with the T g or T m of these copolymers. 66 However, no clear relationship can be found in our case (see Table S4 in the ESI † ) beyond the evident difference in T g values of polystyrene and poly(DFMST- co -ST) copolymers.…”

“…As expected, compared with previous results, 36 the CA values decrease significantly when CF 3 is replaced by CF 2 H. The obtained CA results are in satisfactory agreement with those of previous studies on the perfluorohexylethyl(meth)acrylate/ n -alkyl (meth)acrylate copolymers. 66 Gu et al 66 found that the groups (H or CH 3 ) at α-position of (meth)acrylate significantly influenced the contact angle, while the increase of side-chain lengths in the two types of copolymers did not.…”

“…The surface reorganization has been one of the key analyzed properties of the copolymers in recent years. [66][67][68][69][70] Subsequently, to examine such a characteristic of copolymers, the effect of the comonomer structure on the surface energy is studied. To the best of our knowledge, there is a number of reports about the inuence of wettability and oil repellency of uorinated copolymers, depending on their structure.…”

“…To the best of our knowledge, there is a number of reports about the inuence of wettability and oil repellency of uorinated copolymers, depending on their structure. 66,67,71 The advancing and receding contact angles of two liquids (polar and nonpolar) on the copolymer layers and the contact angle hysteresis (CAH) allowed us to get insight on the surface energy of these new uorocopolymers. These layers were prepared via deposition of poly(DFMST-co-ST) copolymers on the glass surface beforehand modied by octadecyltrichlorosilane (OTS) according to a previous publication.…”

Aromatic fluorocopolymers based on α-(difluoromethyl)styrene and styrene: synthesis, characterization, and thermal and surface properties

“…The phenomenon will lead to the increase of surface free energy due to the surface reorganization, which limits the practical application of WFPUs. Thus, it is very significant to design WFPUs with stable lower surface free energy through decreasing surface reorganization when the films may contact with water or moist air.…”

Effect of crosslinking on the surface free energy and surface reorganization of waterborne fluorinated polyurethane

Effect of sequence structure on wetting behaviors of fluorinated methacrylate polymers based on perfluorohexylethyl methacrylate and stearyl acrylate