References
- J.H. Lee, K.S. Lim, W.G. Hahm, S.H. Kim, Properties of recycled
and virgin poly(ethylene terephthalate) blend fibers, J. Appl.
Polym. Sci., 128 (2013) 1250–1256.
- Y.J. Qin, M.C. Qu, Y.M. Pan, C.H. Zhang, D.W. Schubert,
Fabrication, characterization and modelling of triple hierarchic
PET/CB/TPU composite fibres for strain sensing, Composites
Part A, 129 (2020) 105724.
- S. Liu, Z. Feng, D. Liu, X. Zhang, L. Zhang, Response of air drag
force of the polyethylene terephthalate (PET) yarn treated via
dielectric barrier discharge (DBD) plasma to its varying surface
characteristics, Text. Res. J., 86 (2016) 2140–2150.
- Y.J. Qin, M.C. Qu, J. Kaschta, D.W. Schubert, Comparing
recycled and virgin poly (ethylene terephthalate) melt-spun
fibres, Polym. Test., 72 (2018) 364–371.
- R. Neelakandan, M. Madhusoothanan, Electrical resistivity
studies on polyaniline coated polyester fabrics, J. Eng. Fibers
Fabr., 5 (2010) 16–24.
- C.-S. Park, E.Y. Jung, D.H. Kim, D.Y. Kim, H.-K. Lee, B.J. Shin,
D.H. Lee, H.-S. Tae, Atmospheric pressure plasma polymerization
synthesis and characterization of polyaniline films
doped with and without iodine, Materials, 10 (2017) 1272–1290.
- S.L. Bai, J.Y. Ye, R.X. Luo, A.F. Chen, D.Q. Li, Hierarchical
polyaniline microspheres loading on flexible PET films for NH3
sensing at room temperature, RSC Adv., 6 (2016) 6939–6945.
- M. Amini, M. Arami, N.M. Mahmoodi, A. Akbari, Dye
removal from colored textile wastewater using acrylic grafted
nanomembrane, Desalination, 267 (2011) 107–113.
- J.S. Liu, S. Ma, L.J. Zang, Preparation and characterization
of ammonium-functionalized silica nanoparticle as a new
adsorbent to remove methyl orange from aqueous solution,
Appl. Surf. Sci., 265 (2013) 393–398.
- Q. He, Y.H. Ni, S.Y. Ye, Heterostructured Bi2O3/Bi2MoO6
nanocomposites:simple construction and enhanced visiblelight
photocatalytic performance, RSC Adv., 7 (2017)
27089–27099.
- X.F. Zhang, J. Wang, R.M. Li, Q. Liu, L. Li, J. Yu, M.L. Zhang,
L.H. Liu, Efficient removal of uranium(VI) from aqueous
systems by heat-treated carbon microspheres, Environ. Sci.
Pollut. Res. Int., 20 (2013) 8202–8209.
- M. Wawrzkiewicz, E. Polska-Adach, Z. Hubicki, Application
of titania based adsorbent for removal of acid, reactive and
direct dyes from textile effluents, Adsorption, 621–630 (2019)
321–630.
- Z.G. Jia, Z.Y. Li, S.B. Li, Y.H. Li, R.S. Zhu, Adsorption
performance and mechanism of methylene blue on chemically
activated carbon spheres derived from hydrothermallyprepared
poly(vinyl alcohol) microspheres, J. Mol. Liq.,
220 (2016) 56–62.
- V.D. Doan, T.L. Do, T.M.T. Ho, V.T. Le, H.T. Nguyen,
Utilization of waste plastic PET bottles to prepare copper-1,4-benzenedicarboxylate metal-organic framework for methylene
blue removal, Sep. Sci. Technol., 55 (220) 444–455.
- A.A. Mousa, Y.A. Youssef, W.S. Mohamed, R. Farouk, E. Giebel,
M.R. Buchmeiser, Organoclays assisted vat and disperse dyeing
of poly(ethylene terephthalate) nanocomposite fabrics via
melt spinning, Color. Technol., 134 (2017) 126–134.
- R. Anbarasan, T. Vasudevan, A. Gopalan, Chemical grafting
of poly(aniline) and poly(o-toluidine) onto PET fibre — a
comparative study, Eur. Polym. J., 36 (2000) 481–485.
- A. Wołowicz, M. Wawrzkiewicz, Z. Hubicki, Toxic heavy metal
ions and metal-complex dyes removal from aqueous solutions
using an ion exchanger and titanium dioxide, Fibres Text. East.
Eur., 26 (2018) 108–114.
- P. Jha, Adsorptive findings on selected biomasses for removal of
phenol from aqueous solutions, Resources, 8 (2019) 180.
- D.L. Pavia, G.M. Lampman, G.S. Kriz, Infrared Spectroscopy,
Introduction to Spectroscopy, 3rd ed., Brooks/Cole, Thomson
Learning, 2001, pp. 383–389.
- L.P. Salgaonkar, R.V. Jayaram, Thermal and flame-retardant
properties of polyester fabric grafted with polyanilines, J. Appl.
Polym. Sci., 93 (2004) 1981–1988.
- A. Harlin, P. Nousiainen, A. Puolakka, J. Pelto, J. Sarlin,
Development of polyester and polyamide conductive fibre,
J. Mater. Sci., 40 (2005) 5365–5371.
- T.A. Skotheim, J. Reynolds, Conjugated Polymers: Theory,
Synthesis, Properties, and Characterization, 3rd ed., CRC Press
Taylor & Francis Group, 2007, pp. 71–75.
- E.N. Konyushenko, J. Stejskal, I. Šeděnková, M. Trchová,
I. Sapurina, M. Cieslar, J. Prokeš, Polyaniline nanotubes:
conditions of formation, Polym. Int., 55 (2006) 31–39.
- H.R. Kim, R. Manivannan, G. Heo, J.W. Ryu, Y.-A. Son,
Porphyrin dye/TiO2 entrenched in PET to attain self-cleaning
property through visible light photocatalytic activity, Res.
Chem. Intermed., 45 (2019) 3655–3671.
- K.H. Qi, J.H. Xin, W.A. Daoud, C.L. Mak, Functionalizing
polyester fiber with a self-cleaning property using anatase TiO2
and low-temperature plasma treatment, Int. J. Appl. Ceram.
Technol., 4 (2007) 554–563.
- B. Muralidharan, S. Laya, A new approach to dyeing of
80:20 polyester/cotton blended fabric using disperse and
reactive dyes, ISRN Mater. Sci., 2011 (2011) 1–12, https://doi.
org/10.5402/2011/907493.
- A.G. Gaonkar, V.V. Murudkar, V.D. Deshpande, Comparison of
crystallization kinetics of polyethylene terephthalate (PET) and
reorganized PET, Thermochim. Acta, 683 (2020) 178472.
- H.H. Huang, W.J. Liu, Polyaniline/poly(ethylene terephthalate)
conducting composite fabric with improved fastness to
washing, J. Appl. Polym. Sci., 102 (2006) 5775–5780.
- B.L. Deopura, R. Alagirusamy, M. Joshi, B. Gupta, Polyesters
and Polyamides, Woodhead Publishing Limited, England, 2008,
pp. 280–288.
- T. Szatkowski, K. Siwińska-Stefańska, M. Wysokowski,
A.L. Stelling, Y. Joseph, H. Ehrlich, T. Jesionowski, Immobilization
of titanium(IV) oxide onto 3D spongin scaffolds of
marine sponge origin according to extreme biomimetics
principles for removal of C.I. basic blue 9, J. Environ. Manage.,
212 (2018) 395–404.