FangKZhangC. Surface physical–morphological and chemical changes leading to performance enhancement of atmospheric pressure plasma treated polyester fabrics for inkjet printing. Appl Surf SciJun. 2009; 255: 7561–7567.
2.
GabardoRSde Carvalho CotreDSLis AriasMJ, et al.Surface modification of polyester fabrics by ozone and its effect on coloration using disperse dyes. MaterialsJun. 2021; 14: 3492. [Online]
3.
LauKSChanPWYeungKW, et al.Surface properties of polyester fabrics induced by excimer laser processing. J Mater Process TechnolJan. 1997; 63: 524–528.
4.
UmamKFitriaN. Surface modification of polyester fiber with sericin for cold reactive dyeing. AIP Conference Proceedings2018; 2049: 020001. doi: 10.1063/1.5082406. [Online].
5.
PušićTBušacTŠimićK, et al.Sustainability-Oriented surface modification of polyester knitted fabrics with chitosan. SustainabilityJan. 2024; 16: 1121. [Online].
6.
DerakhshanfardADashtiYAdibanN, et al.Surface modification of polyester fabrics for improving oil–water separation efficiency using air pressure plasma without any additives. Chemical PapersSep. 2024; 78: 8059–8070.
7.
XiaoXChenFWeiQ,et al.Surface modification of polyester nonwoven fabrics by Al2O3 sol–gel coating. J Coat Technol ResDec. 2009; 6: 537–541.
8.
ZhaoZZhouJFanT, et al.An effective surface modification of polyester fabrics for improving the interfacial deposition of polypyrrole layer. Mater Chem PhysJan. 2018; 203: 89–96.
9.
QiLWangBZhangW, et al.Durable flame retardant and dip-resistant coating of polyester fabrics by plasma surface treatment and UV-curing. Prog Org CoatNov. 2022; 172: 107066. [Online].
10.
SlomkowskiSBasinskaTGadzinowskiM,et al.Polyesters and polyester nano- and microcarriers for drug delivery. Polymers (Basel)Sep. 2024; 16: 2503. [Online].
11.
TeimouriRAbnousKTaghdisiSM, et al.Surface modifications of scaffolds for bone regeneration. J Mater Res TechnolMay 2023; 24: 7938–7973.
12.
EsmailAPereiraJRZoioP, et al.Oxygen plasma treated-electrospun polyhydroxyalkanoate scaffolds for hydrophilicity improvement and cell adhesion. Polymers (Basel)Mar. 2021; 13: 1056. [Online].
13.
KimWJungJ. Polymer brush: a promising grafting approach to scaffolds for tissue engineering. BMB RepDec. 2016; 49: 655–661.
14.
CuiYLQiADLiuWG, et al.Biomimetic surface modification of poly(l-lactic acid) with chitosan and its effects on articular chondrocytes in vitro. BiomaterialsSep. 2003; 24: 3859–3868.
15.
HeLShiYHanQ, et al.Surface modification of electrospun nanofibrous scaffolds via polysaccharide–protein assembly multilayer for neurite outgrowth. J Mater Chem2012; 22: 13187. [Online].
16.
MorshedMNBeharyNBouaziziN, et al.Surface modification of polyester fabric using plasma-dendrimer for robust immobilization of glucose oxidase enzyme. Sci RepOct. 2019; 9: 15730. [Online].
17.
RathinamoorthyRBalasaraswathiSR. Effect of surface modification of polyester fabric on microfiber shedding from household laundry. Int J Clothing Sci TechnolMar. 2023; 35: 13–31.
18.
IbrahimNEidBYoussefM, et al.Surface modification and smart functionalization of polyester-containing fabrics. J Ind TextApr. 2013; 42: 353–375.
19.
Nanjiba Nur. Microfiber shedding from synthetic textiles: An environmental concern. Text FocusDec. 11, 2022; 78. [Online].
20.
MostajeranMKhoddamiAMirlooP,et al.Surface modification of polyester fabrics using choline hydroxide-catalysed glycolysis. Surf EngApr. 2024; 40: 418–425.
21.
XiaLCaoDZhangH, et al.Surface modification of recycled polyester fiber and performance evaluation of its asphalt mastic and mixture. SustainabilityDec. 2023; 16: 78. [Online].
