Alongi J, Colleoni C, Malucelli G, Rosace G (2012) Hybrid phosphorus-doped silica architectures derived from a multistep sol-gel process for improving thermal stability and flame retardancy of cotton fabrics. Polym Degrad Stab 97:1334-1344.
Alongi J, Malucelli G (2015) Cotton flame retardancy: state of the art and future perspectives. RSC Adv 5:24239-24263.
Amiri S, Rahimi A (2016) Hybrid nanocomposite coating by sol-gel method: a review. Iran Polym J 25:559-577.
Arteta MY, Eltes F, Campbell RA, Nylander T (2013) Interactions of PAMAM dendrimers with SDS at the solid-liquid interface. Langmuir 29:5817-5831.
Battig A, Markwart JC, Wurm FR, Schartel B (2019) Hyperbranched phosphorus flame retardants: multifunctional additives for epoxy resins. Polym Chem 10:4346-4358.
Brancatelli G, Colleoni C, Massafra MR, Rosace G (2011) Effect of hybrid phosphorus-doped silica thin films produced by sol-gel method on the thermal behavior of cotton fabrics. Polym Degrad Stab 96:483-490.
Camlibel NO, Arik B (2017) Sol-Gel applications in textile finishing processes. Recent applications in Sol-Gel synthesis Chapter 13:253-273.
Chen J, Liu S, Zhao J (2011) Synthesis, application, and flame retardancy mechanism of a novel flame retardant containing silicon and caged bicyclic phosphate for polyamide 6. Polym Degrad Stab 96:1508-1515.
Chen XL, Jiao C (2009) Synergistic effects of hydroxy silicone oil on intumescent flame retardant polypropylene system. J Polym Res 44:1010-1014.
Cheng XW, Tang RC, Guan JP, Zhou SQ (2020) An eco-friendly and effective flame retardant coating for cotton fabric basedon phytic acid doped silica sol approach. Prog Org Coat 141:105539.
Costa DO, Dixon SJ, Rizkalla AS (2012) One and three-dimensional growth of hydroxyapatite nanowires during sol-gel-hydrothermal synthesis. ACS Appl Mater Interfaces 4:1490-1499.
Dutkiewicz M, Przybylak M, Januszewski R, Maciejewski H (2018) Synthesis and flame retardant efficacy of hexakis(3-(triethoxysilyl) propyloxy)cyclotriphosphazene/silica coatings for cotton fabrics. Polym Degrad Stab 148:10-18.
Edwards B, Hauser P, El-Shafei (2015) A nonflammable cellulosic substrates by application of novel radiation-curable flame retardant monomers derived from cyclotriphosphazene. Cellulose 22:275-287.
El-Shafei A, ElShemy M, Abou-Okeil A (2015) Eco-friendly finishing agent for cotton fabrics to improve flame retardant and antibacterial properties. Carbohydr Polym 118:83-90.
Feng YJ, Zhou Y, Li DK, He S, Zhang FX, Zhang GX (2017) A plant-based reactive ammonium phytate for use as a flame-retardant for cotton fabric. Carbohydr Polym 175:636-644.
Foksowicz-Flaczyk J, Walentowska J, Przybylak M, Maciejewski H (2016) Multifunctional durable properties of textile materials modified by biocidal agents in the sol-gel process. Surf Coat Technol 304:160-166.
Gaan S, Sun G (2007) Effect of phosphorus and nitrogen on flame retardant cellulose: A study of phosphorus compounds. J Anal Appl Pyrolysis 78:371-377.
Gao C, Yan D (2004) Hyperbranched polymers: from synthesis to applications. Prog Polym Sci 29:183-275.
Grancaric AM, Colleoni C, Guido E, Botteri L, Rosace G (2017) Thermal behaviour and flame retardancy of monoethanolamine-doped sol-gel coatings of cotton fabric. Prog Org Coat 103:174-181.
Horrocks AR (2011) Flame retardant challenges for textiles and fibres: new chemistry versus innovatory solutions. Polym Degrad Stab 96:377-392.
Hou AQ, Shi YQ, Yu YH (2009) Preparation of the cellulose/silica hybrid containing cationic group by sol-gel crosslinking process and its dyeing properties. Carbohydr Polym 77:201-205.
Huang ZG, Shi WF (2007) Synthesis and properties of a novel hyperbranched polyphosphate acrylate applied to UV curable flame retardant coatings. Eur Polym J 43:1302-1312.
Inoue K (2000) Functional dendrimers, hyperbranched and star polymers. Prog Polym Sci 25:453-571.
Jia YL, Hu YW, Zheng DD, Zhang GX, Zhang FX, Liang YJ (2017) Synthesis and evaluation of an efficient, durable, and environmentally friendly flame retardant for cotton. Cellulose 24:1159-1170.
Jiang Z, Wang C, Fang S, Ji P, Wang H, Ji C (2018) Durable flame-retardant and antidroplet finishing of polyester fabrics with flexible polysiloxane and phytic acid through layer-by-layer assembly and sol-gel process. J Appl Polym Sci 135:46414.
Jikei M, Kakimoto MA (2001) Hyperbranched polymers: a promising new class of materials. Prog Polym Sci 26:1233-1285.
Lessan F, Montazer M, Moghadam MB (2011) A novel durable flame-retardant cotton fabric using sodium hypophosphite, nanoTiO2 and maleic acid. Thermochim Acta 520:48-54.
Lin D, Zeng X, Li H, Lai X, Wu T (2019) One-pot fabrication of superhydrophobic and flame-retardant coatings on cotton fabrics via sol-gel reaction. J Colloid Interface Sci 5331:198-206.
Liu J, Dong CH, Zhang Z, Kong DZ, Sun H, Lu Z (2020) Multifunctional flame-retarded and hydrophobic cotton fabrics modified with a cyclic phosphorus/polysiloxane copolymer. Cellulose 27:3531-3549.
Liu JY, Huang WQ, Xing YJ, Li R, Dai JJ (2011) Preparation of durable superhydrophobic surface by sol-gel method with water glass and citric acid. J Sol-Gel Sci Technol 58:18-23.
Mahapatra SS, Karak N, (2007) s-Triazine containing flame retardant hyperbranched polyamines: Synthesis, characterization, and properties evaluation. Polym Degrad Stab 92:947-955.
Marty JD, Martinez-Aripe E, Mingotaud AF, Mingotaud C (2008) Hyperbranched polyamidoamine as stabilizer for catalytically active nanoparticles in water. J Colloid Interface Sci 326:51-54.
Mayer-Gall T, Knittel D, Gutmann JS, Opwis K (2015) Permanent flame retardant finishing of textiles by allylfunctionalized polyphosphazenes. ACS Appl Mater Interfaces 7:9349-9363.
Mecke A, Lee I, Jr JRB, Holl MMB, Orr BG (2004) Deformability of poly(amidoamine) dendrimers. Orr Eur Phys J E 14:7-16.
Nakanishi S, Masuko F, Hori K, Hashimoto T (2000) Pyrolytic gas generation of cotton cellulose with and without flame retardants at different stages of thermal degradation: effects of nitrogen, phosphorus, and halogens. Text Res J 70:574-583.
Qian X et al (2014) Organic/inorganic flame retardants containing phosphorus, nitrogen, and silicon: Preparation and their performance on the flame retardancy of epoxy resins as a novel intumescent flame retardant system. Mater Chem Phys 143:1243-1252.
Ruchenstein E, Yin WS (2000) SiO2-Poly(amidoamine) Dendrimer inorganic/organic hybrids. J Polym Sci PartA: Polym Chem 38:1443-1449.
Sadeghi-Kiakhani M, Tehrani-Bagha AR (2016) Retarding action of poly(amidoamine) dendrimers and cationic gemini surfactants in acrylic dyeing. Dyes Pigm 25:323-330.
Sayed-Sweet Y, Hedstrand DM, Spinder R, Tomalia DA (1997) Hydrophobically modified poly(amidoamine) (pamam) dendrimers: their properties at the air-water interface and use as nanoscopic container molecules. J Mater Chem 7:1199-1205.
Tsubokawa N, Takayama T (2000) Surface modification of chitosan powder by grafting of ‘dendrimer-like’ hyperbranched polymer onto the surface. React Funct Polym 43:341-350.
Visakh PM, Yoshihiko A (2015) Flame retardants: polymer blends, composites, and nanocomposites. Switzerland: Springer International Publishing AG Switzerland.
Wang D et al (2020) A bio-based flame-retardant starch based on phytic acid. ACS Sustainable Chem Eng 8:10265-10274.
Wang GW, Zhuang LH, Sun J, Zheng CL (2014) Salt-free dyeing of ramie fabric with an amino-terminated hyperbranched polymer. Cellulose 21:3725-3736.
Wang P, Cai Z (2017) Highly efficient flame-retardant epoxy resin with a novel DOPO-based triazole compound: thermal stability, flame retardancy and mechanism. Polym Degrad Stab 137:138-150.
Wang X, Romero MQ, Zhang Q, Wang R, Wang DY (2015) Intumescent multilayer hybrid coating for flame retardant cotton fabrics based on layer-by-layer assembly and sol-gel process. RSC Adv 5:10647-10655.
Wang Y, Yan LH (2007) Study on crystal structure and scale behaviors of 2-phosphonobutane-1,2,4-tricarboxylic acid. Huaxue tongbao(China) 6:445-449.
Wang ZM, Cai LK (1989) Study on Organic Phosphonic acid and carboxylic acid water quality stabilizer-Ⅰ. corrosion and scale inhibition of 2-phosphonobutane-1,2,4-tricarboxylic acid. Journal of East China University of Science and Technology (China), 5:699-705.
Yan YW, Chen L, Jian RK, Kong S, Wang YZ (2012) Intumescence: An effect way to flame retardance and smoke suppression for polystyrene. Polym Degrad Stab 97:1423-1431.
Yuen CWM et al (2007) Using nano-TiO2 as co-catalyst for improving wrinkle-resistance of cotton fabric. Surf Rev Lett 14:571-575.
Zhang F, Chen Y, Lin H, Wang H, Zhao B (2008) HBP-NH2 grafted cotton fiber: preparation and salt-free dyeing properties. Carbohydr Polym 74:250-256.
Zhang F, Chen YY, Lin H, Lu YH (2007) Synthesis of an amino-terminated hyperbranched polymer and its application in reactive dyeing on cotton as a salt-free dyeing auxiliary. Color Technol 123:351-357.
Zhang F, Zhang D, Chen Y, Lin H (2009) The antimicrobial activity of the cotton fabric grafted with an amino-terminated hyperbranched polymer. Cellulose 16:281-288.
Zhang JH et al (2020) A bio-based hyperbranched flame retardant for epoxy resins. Chem Eng J 381:122719.
Zhang W, He X, Song T, Jiao Q, Yang R (2014) The influence of the phosphorus-based flame retardant on the flame retardancy of the epoxy resins. Polym Degrad Stab 109:209-217.
Zhang WC, Li XM, Fan HB, Yang RJ (2012) Study on mechanism of phosphoruse silicon synergistic flame retardancy on epoxy resins. Polym Degrad Stab 97:2241-2248.
Zhang Z, Kong DZ, Sun H, Sun L, Dong CH, Lu Z (2020) Synthetic novel, convenient and eco-friendly Si/P/N synergistic treatment agent to improve the flame retardancy and thermal stability of cotton fabrics. Cellulose 27:10473-10487.
Zhang Z, Wang HY, Sun J, Guo K (2021) Cotton fabrics modified with [email protected] poly(amidoamine): their salt-free dyeing properties and thermal behaviors. Cellulose 28:1-15.
Zheng DD, Zhou JF, Zhong L, Zhang FX, Zhang GX (2016) A novel durable and high-phosphorous-containing flame retardant for cotton fabrics. Cellulose 23:2211-2220.
Zolriasatein AA, Yazdanshenas ME, Khajavi R, Rashidi A, Najafi F (2013) The use of poly(amidoamine) dendrimer in modification of jute for improving dyeing properties of reactive dyes. J Appl Polym Sci 127:4203-4211.