C. Gao and D. Yan, Hyperbranched polymers: From synthesis to applications, Progress in Polymer Science, vol.29, pp.183-275, 2004.

,

H. Claesson, E. Malmström, M. Johansson, A. Hult, M. Doyle et al., Rheological behaviour during UV-curing of a star-branched polyester, Progress in Organic Coatings, vol.44, pp.63-67, 2002.

, , pp.242-251

R. A. Van-benthem, Novel hyperbranched resins for coating applications, Progress in Organic Coatings, vol.40, pp.203-214, 2000.

, , pp.122-125

Y. Chen, N. Wang, G. Tong, D. Wu, X. Jin et al., Synthesis of multiarm star polymer based on hyperbranched polyester core and poly(?-caprolactone) arms and its application in UV-curable coating, ACS Omega, vol.3, pp.13928-13934, 2018.

,

H. Claesson, E. Malmström, M. Johansson, and A. Hult, Synthesis and characterisation of star branched polyesters with dendritic cores and the effect of structural variations on zero shear rate viscosity, Polymer, vol.43, pp.3511-3518, 2002.

, , pp.73-76

M. Irfan, J. Oh, S. G. Musharraf, M. R. Shah, S. Ahmed et al., Synthesis and meticulous molecular, morphological and thermal characterization of linear and star-shaped polycaprolactones, RSC Advances, vol.6, pp.98117-98127, 2016.

,

M. Sobczak, E. Witkowska, E. Ol?dzka, and W. Kolodziejski, Synthesis and structural analysis of polyester prodrugs of norfloxacin, Molecules, vol.13, pp.96-106, 2008.

,

C. Dong, K. Qiu, Z. Gu, and X. Feng, Synthesis of star-shaped poly(?-caprolactone)-b-poly(DL-lactic acid-alt-glycolic acid) with multifunctional initiator and stannous octoate catalyst, Macromolecules, vol.34, pp.4691-4696, 2001.

,

F. Sanda, H. Sanada, Y. Shibasaki, and T. Endo, Star polymer synthesis from ?-caprolactone utilizing polyol/protonic acid initiator, Macromolecules, vol.35, pp.680-683, 2002.

,

S. Huang, J. Xiao, Y. Zhu, and J. Qu, Synthesis and properties of spray-applied high solid content two component polyurethane coatings based on polycaprolactone polyols, Progress in Organic Coatings, vol.106, pp.60-68, 2017.

,

M. D. Deokar, S. B. Idage, B. B. Idage, and S. Sivaram, Synthesis and characterization of well-defined random and block copolymers of ?-caprolactone with L-lactide as an additive for toughening polylactide: Influence of the molecular architecture, Journal of Applied Polymer Science, vol.133, 2016.

,

M. Johansson, E. Malmström, A. Jansson, and A. Hult, Novel concept for low temperature curing powder coatings based on hyperbranched polyesters, Journal of Coatings Technology, vol.72, pp.49-54, 2000.

,

J. Lange, E. Stenroos, M. Johansson, and E. Malmström, Barrier coatings for flexible packaging based on hyperbranched resins, Polymer, vol.42, pp.7403-7410, 2001.

, , pp.189-195

S. Torron, D. Hult, T. Pettersson, and M. Johansson, Tailoring soft polymer networks based on sugars and fatty acids toward pressure sensitive adhesive applications, ACS Sustainable Chemistry and Engineering, vol.5, pp.2632-2638, 2017.

,

L. Gustini, B. A. Noordover, C. Gehrels, C. Dietz, and C. E. Koning, Enzymatic synthesis and preliminary evaluation as coating of sorbitol-based, hydroxy-functional polyesters with controlled molecular weights, European Polymer Journal, vol.67, pp.459-475, 2015.

,

C. Marques, R. Tarek, M. Sara, and S. K. Brar, Sorbitol production from biomass and its global market, pp.217-227, 2016.

,

F. H. Isikgor and C. R. Becer, Lignocellulosic biomass: A sustainable platform for the production of bio-based chemicals and polymers, Polymer Chemistry, vol.6, pp.4497-4559, 2015.

,

C. Okkerse and H. Van-bekkum, From fossil to green, Green Chemistry, vol.1, pp.107-114, 1999.

,

A. Corma, S. Iborra, and A. Velty, Chemical routes for the transformation of biomass into chemicals, Chemical Reviews, vol.107, pp.2411-2502, 2007.

,

Y. Sun and J. Cheng, Hydrolysis of lignocellulosic materials for ethanol production: A review, Bioresource Technology, vol.83, pp.1-11, 2002.

, , pp.212-219

F. Haq, H. Ali, M. Shuaib, M. Badshah, S. W. Hassan et al., Recent progress in bioethanol production from lignocellulosic materials: A review, International Journal of Green Energy, vol.13, pp.1413-1441, 2016.

,

H. Kobayashi and A. Fukuoka, Synthesis and utilisation of sugar compounds derived from lignocellulosic biomass, Green Chemistry, vol.15, pp.1740-1763, 2013.

,

A. R. Palmans and A. Heise, Enzymatic polymerisation, 2010.

J. Zhang, H. Shi, D. Wu, Z. Xing, A. Zhang et al., Recent developments in lipase-catalyzed synthesis of polymeric materials, Process Biochemistry, vol.49, pp.797-806, 2014.

,

S. Semlitsch, S. Torron, M. Johansson, and M. Martinelle, Enzymatic catalysis as a versatile tool for the synthesis of multifunctional, bio-based oligoester resins, Green Chemistry, vol.18, pp.1923-1929, 2016.

,

P. Baheti, O. Gimello, C. Bouilhac, P. Lacroix-desmazes, and S. M. Howdle, Sustainable synthesis and precise characterisation of bio-based star polycaprolactone synthesised with a metal catalyst and with lipase, Polymer Chemistry, vol.9, pp.5594-5607, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01944900

,

S. B. Lyon, R. Bingham, and D. J. Mills, Advances in corrosion protection by organic coatings: What we know and what we would like to know, Progress in Organic Coatings, vol.102, pp.2-7, 2017.

,

C. Decker, UV-radiation curing of adhesives. in 'Handbook of adhesives and surface preparation' (ed.: Ebnesajjad S, pp.221-243, 2011.

,

C. E. Hoyle, S. C. Clark, S. Jonsson, and M. Shimose, Photopolymerization using maleimides as photoinitiators. Polymer, vol.38, pp.5695-5697, 1997.

, , p.181

Y. Yagci, S. Jockusch, and N. J. Turro, Photoinitiated polymerization: Advances, challenges, and opportunities, Macromolecules, vol.43, pp.6245-6260, 2010.

,

S. C. Ligon, B. Husár, H. Wutzel, R. Holman, and R. Liska, Strategies to reduce oxygen inhibition in photoinduced polymerization, Chemical Reviews, vol.114, pp.577-589, 2014.

,

T. Haraldsson, M. Johansson, and A. Hult, The effects of abstractable hydrogen in radical photopolymerization of maleate/vinyl ether monomers studied with EPR and photo-RTIR, Journal of Polymer Science Part A: Polymer Chemistry, vol.48, pp.2810-2816, 2010.

,

C. Decker and D. Decker, Photoinitiated radical polymerization of vinyl ether-maleate systems, Polymer, vol.38, pp.2229-2237, 1997.

, , pp.758-764

P. Lacroix-desmazes and A. Guyot, Reactive surfactants in heterophase polymerization. 2. Maleate based poly(ethylene oxide) macromonomers as steric stabilizer precursors in the dispersion polymerization of styrene in ethanol-water media, Macromolecules, vol.29, pp.4508-4515, 1996.

,

F. Morel, C. Decker, S. Jönsson, S. C. Clark, and C. E. Hoyle, Kinetic study of the photo-induced copolymerization of N-substituted maleimides with electron donor monomers, Polymer, vol.40, pp.2447-2454, 1999.

, , pp.449-451

C. Decker, C. Bianchi, D. Decker, and F. Morel, Photoinitiated polymerization of vinyl ether-based systems, Progress in Organic Coatings, vol.42, pp.253-256, 2001.

, , p.203

J. V. Crivello and S. A. Bratslavsky, Novel cationically polymerizable propenyl and vinyl ethers derived from renewable sources, Journal of Polymer Science: Part A Polymer Chemistry, vol.32, pp.2919-2930, 1994.

,

Y. Li and T. Kissel, Synthesis, characteristics and in vitro degradation of star-block copolymers consisting of Llactide, glycolide and branched multi-arm poly(ethylene oxide), Polymer, vol.39, pp.4421-4427, 1998.

, , pp.10362-10369

F. Tasaka, H. Miyazaki, Y. Ohya, and T. Ouchi, Synthesis of comb-type biodegradable polylactide through depsipeptide-lactide copolymer containing serine residues, Macromolecules, vol.32, pp.6386-6389, 1999.

,

M. P. Turunen, H. Korhonen, J. Tuominen, and J. V. Seppälä, Synthesis, characterization and crosslinking of functional star-shaped poly(?-caprolactone), Polymer International, vol.51, pp.92-100, 2002.

,

H. Mi, X. Jing, G. Yilmaz, B. S. Hagerty, E. Enriquez et al., In situ synthesis of polyurethane scaffolds with tunable properties by controlled crosslinking of tri-block copolymer and polycaprolactone triol for tissue regeneration, Chemical Engineering Journal, vol.348, pp.786-798, 2018.

,

S. Wang, M. J. Yaszemski, J. A. Gruetzmacher, and L. Lu, Photo-crosslinked poly(?-caprolactone fumarate) networks: Roles of crystallinity and crosslinking density in determining mechanical properties, Polymer, vol.49, pp.5692-5699, 2008.

,

H. Y. Kweon, M. K. Yoo, I. K. Park, T. H. Kim, H. C. Lee et al., A novel degradable polycaprolactone networks for tissue engineering, vol.24, pp.801-808, 2003.

, , pp.370-378

. Baheti, eXPRESS Polymer Letters, vol.13, issue.12, pp.1104-1115, 2019.