7/28/2023 0 Comments Fast emulsion film![]() Jiang YJ, Li L, Liu JP, Wang R, Wang HS, Tian Q, Li XY (2016) Hydrophobic films of acrylic emulsion by incorporation of fluorine-based copolymer prepared through the RAFT emulsion copolymerization. Habibi Y, Lucia LA, Rojas OJ (2010) Cellulose nanocrystals: chemistry, self-assembly, and applications. Carbohydr Polym 202:621–630Įl-Fattah MA, Hasan AMA, Keshawy M, El Saeed AM (2018) Nanocrystalline cellulose as an eco-friendly reinforcing additive to polyurethane coating for augmented anticorrosive behavior. Nano Energy 35:299–320Įrrezma M, Mabrouk AB, Magnin A, Dufresne A, Boufi S (2018) Surfactant-free emulsion Pickering polymerization stabilized by aldehyde-functionalized cellulose nanocrystals. ACS Sustain Chem Eng 5:7514–7523ĭu X, Zhang Z, Liu W, Deng YL (2017b) Nanocellulose-based conductive materials and their emerging applications in energy devices: a review. Colloid Surf A, Physicochem Eng Asp 353:181–188ĭu WB, Guo J, Li HM, Gao Y (2017a) Heterogeneously modified cellulose nanocrystals-stabilized Pickering emulsion: preparation and their template application for the creation of PS microspheres with amino-rich surfaces. Chem Soc Rev 45:4391–4436ĭong XQ, Xu J, Cao CB, Sun DJ, Jiang XR (2010) Aqueous foam stabilized by hydrophobically modified silica particles and liquid paraffin droplets. Eur Polym J 76:208–215ĭarabi A, Jessop PG, Cunningham MF (2016) CO 2-responsive polymeric materials: synthesis, self-assembly, and functional applications. Nord Pulp Pap Res J 29:19–30Ĭunningham MF, Jessop PG (2016) An introduction to the principles and fundamentals of CO 2-switchable polymers and polymer colloids. Biomacromol 17:496–502Ĭlélia M, Bruno J (2014) Nanocellulose/polymer multilayered thin films: tunable architectures towards tailored physical properties. Food Hydrocolloids 75:125–130Ĭherhal F, Cousin F, Capron I (2016) Structural description of the interface of Pickering emulsions stabilized by cellulose nanocrystals. ![]() RSC Adv 5:97231–97238Ĭhen QH, Zheng J, Xu YT, Yin SW, Liu F, Tang CH (2018) Surface modification improves fabrication of Pickering high internal phase emulsions stabilized by cellulose nanocrystals. J Polym Sci, Part A: Polym Chem 53:2633–2641Ĭhen X, Zhou JH, Ma JZ (2015b) Synthesis of a cationic fluorinated polyacrylate emulsifier-free emulsion via ab initio RAFT emulsion polymerization and its hydrophobic properties of coating films. Ĭhen A, Blakey I, Jack KS, Whittaker AK, Peng H (2015a) Control through monomer placement of surface properties and morphology of fluoromethacrylate copolymers. Graphic abstractīaidya A, Das SK, Ras RHA, Pradeep T (2018) Fabrication of a waterborne durable superhydrophobic material functioning in air and under oil. The contact angle results exhibited the finished fabric had excellent water and oil resistance. The SEM and EDX analysis indicated that cellulose nanocrystal-dressed fluorinated polyacrylate latex particles were successfully adhered to the fiber surface and the finished fabric presented a relatively rough surface morphology. 1H-NMR and FT-IR spectroscopy were employed to study the chemical structure of cellulose nanocrystal-dressed fluorinated polyacrylate latex particles. The results obtained from TEM verified that the latex particles presented a spher-like mophology with a well-defined core–shell structure. The monomer conversion increased first and then decreased as the pH and the amount of fluorine monomer increased, while a reverse trend was noted for the particle size and particle size distribution. The main work was to study the effect of pH value and the amount of fluorinated monomer on emulsion polymerization and finished fabric properties. ![]() Cellulose nanocrystal-dressed fluorinated polyacrylate latex particles were prepared via RAFT-mediated Pickering emulsion polymerization using cellulose nanocrystals (CNCs) modified with amphiphilic polymers as Pickering stabilizers.
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