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Chitosan-Based Sustainable Textile Technology: Process, Mechanism, Innovation & Safety
[2] Bagheri-Khoulenjani S, Taghizadeh Polycaprolactone/chitosan blend et al. Alginate fibres modified with
SM, Mirzadeh H. An investigation nanofibres electrospun from an unhydrolysed and hydrolysed
on the shortterm biodegradability of acetic acid/formic acid solvent chitosans for wound dressings.
chitosan with various molecular system. Carbohydr Polym. Carbohydr Polym. 2004;55:65–76.
weights and degrees of 2012;88:1221–6.
[25] Miraftab M, Smart G, Kennedy JF,
deacetylation. Carbohydr Polym.
[15] Bhattarai N, Edmondson D, Veiseh Knill CJ, Mistry J, Groocock MR.
2009;78:773–8.
O, Matsen FA, Zhang M. Novel chitosanalginate fibres for
[3] Vårum KM, Myhr MM, Hjerde RJN, Electrospun chitosanbased advanced wound dressings. In:
Smidsrød O. In vitro degradation nanofibers and their cellular Medical Textiles and Biomaterials
rates of partially N-acetylated compatibility. Biomaterials. for Healthcare: Incorpora-ting
chitosans in human serum. 2005;26:6176–84. Proceedings of MEDTEX03
Carbohydr Res. 1997;299:99–101. International Conference and
[16] Ohkawa K, Cha D, Kim H, Nishida
[4] Vandevord PJ, Matthew HWT, A, Yamamoto H. Electrospinning of Exhibition on Healthcare and
Medical Textiles. 2005. p. 37–49.
Desilva SP, Mayton L, Wu B, Wooley chitosan. Macromol Rapid
PH. Evaluation of the Commun. 2004;25:1600 –5. [26] Jung B, Theato P. Chemical
biocompatibility of a chitosan [17] Notin L, Viton C, David L, Alcouffe strategies for the synthesis of
scaffold in mice. J Biomed Mater P, Rochas C, Domard A. protein-polymer conjugates. Adv
Res. 2002;59(3):585–90. Polym Sci. 2012;244:19–44.
Morphology and mechanical
[5] Sashiwa H, Aiba SI. Chemically properties of chitosan fibers [27] Zamani M, Prabhakaran MP,
modified chitin and chitosan as obtained by gel-spinning: Influence Ramakrishna S. Advances in drug
biomaterials. Prog Polym Sci. of the dry-jetstretching step and delivery via electrospun and electro-
2004;29:887–908. ageing. Acta Biomater. 2006;2:387– sprayed nanomaterials. Int J
402. Nanomedicine. 2013;8:2997–3017.
[6] Mourya VK, Inamdar NN. Chitosan-
modifications and applications: [18] Ogawa K, Yui T, Miya M. [28] Schauer CL, Lelkes PI et al. NIH
Opportunities galore. React Funct Dependence on the preparation public access. Biomaterials.
Polym. 2008;68:1013 –51. procedure of the polymorphism 2013;33: 9167–78.
and crystallinity of chitosan
[7] Knaul JZ, Creber KAM. Coagulation [29] Sun K, Li ZH, Zakhem E, Bitar KN,
rate studies of spinnable chitosan membranes. Biosci Biotechnol Notin L, Viton C, et al. Morphology
solutions. J Appl Polym Sci. Biochem. 1992;56:858–62. and mechanical properties of
1997;66:117–27. [19] Agboh OC, Qin Y. Chitin and chitosan fibers obtained by gel-
chitosan fibers. Polym Adv Technol. spinning: Influence of the dry-jet-
[8] East GC, Qin Y. Wet spinning of
chitosan and the acetylation of 1997;8:355–65. stretching step and ageing. Acta
chitosan fibers. J Appl Polym Sci. [20] Crini G. Recent developments in Biomater. 2015;2(4):999–1011.
1993;50:1773–9. polysaccharide-based materials [30] Toskas G, Cherif C, Hund RD,
used as adsorbents in wastewater Laourine E, Mahltig B, Fahmi A, et
[9] Delta TD. Writing 1. p. 1–47.
treatment. Prog Polym Sci. al. Chitosan(PEO)/silica hybrid
[10] Tamura H, Tsuruta Y, Itoyama K, 2005;30:38–70. nanofibers as a potential
Worakitkanchanakul W. Preparation biomaterial for bone regeneration.
[21] Saha S, Sarkar P. Arsenic mitigation
of chitosan filament applying new Carbohydr Polym. 2013;94:713–
by chitosan-based porous
coagulation system. Carbohydr 22.
Polym. 2004;56:205–11. magnesia-impregnated alumina:
Performance evaluation in [31] Liu Y, Xiang K, Chen H, Li Y, Hu Q.
[11] Hirano S, Nagamura K, Zhang M, continuous packed bed column. Int Composite vascular repair grafts
Ki S, Geul B. Chitosan staple fibers J Environ Sci Technol. via microimprinting and
and their chemical modification 2016;13:243–56. electrospinning. AIP Adv.
with some aldehydes. Carbohydr 2015;5(4):0–8.
Polym. 1999;38: 293–8. [22] Li X, Wu P, Gao GF, Cheng S.
Carbohydrate-functionalized [32] Barrère M, Ganachaud F,
[12] Tokura S, Nishimura S, Nishi N, chitosan fiber for influenza virus Bendejacq D, Dourges MA, Maitre
Nakamura K, Hasegawa O, capture. Biomacromolecules. C, Hémery P, et al. Controlled
Sashiwa H, et al. Preparation and 2011;12:3962–9. release properties of chitosan
some properties of various encapsulated volatile Citronella Oil
deacetylated chitin fibers. [23] Pinho ED, Martins A, Araújo JV, Reis microcapsules by thermal
RL, Neves NM. Size also matters in
Transaction. 1987;43:288–93. treatments. Colloids Surf B
biodegradable composite
[13] Notin L, Viton C, Lucas JM, Domard microfiber reinforced by chitosan Biointerfaces [Internet]. Third Ed.
A. Pseudo-dry-spinning of chitosan. nanofibers. MRS Proc. 2014;3:292–7. doi:10.1016/
Acta Biomater. 2006;2:297–311. 2014;1621:59–69. j.carbpol.2012.04.013
[14] Schueren L Van Der, Steyaert I, [24] Knill CJ, Kennedy JF, Mistry J, [33] Su P, Wang C, Yang X, Chen X, Gao
Schoenmaker B De, Clerck K De. Miraftab M, Smart G, Groocock MR, C, Feng XX, et al. Electrospinning
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