J. Mater. Sci. Technol. ›› 2024, Vol. 199: 156-183.DOI: 10.1016/j.jmst.2024.02.039
• Review article • Previous Articles Next Articles
Aurelio Bifulcoa,*, Jiuke Chenb,c,1, Arvindh Sekarb,1, Wenyu Wu Klinglerb, Ali Gooneied, Sabyasachi Gaanb,*
Received:
2023-11-18
Revised:
2024-01-23
Accepted:
2024-02-22
Published:
2024-11-10
Online:
2024-11-07
Contact:
*E-mail addresses: About author:
1These authors contributed equally to this work.
Aurelio Bifulco, Jiuke Chen, Arvindh Sekar, Wenyu Wu Klingler, Ali Gooneie, Sabyasachi Gaan. Recycling of flame retardant polymers: Current technologies and future perspectives[J]. J. Mater. Sci. Technol., 2024, 199: 156-183.
[1] F. Laoutid, L. Ferry, J.M.Lopez-Cuesta, A.Crespy, Fire Mater. 30(2006) 343-358. [2] J. Troitzsch, E. Antonatus, Ger- many, 2021. [3] S. Bourbigot, S. Duquesne, J. Mater. Chem. 17(20 07) 2283-230 0. [4] G. Camino, L. Costa, Polym. Degrad. Stabil. 20(1988) 271-294. [5] T. Ngo, Green Mater. 8(2020) 101-122. [6] Y.O. Kim, Y.C.Jung, in: Flame Retardancy of Bioepoxy Polymers, Their Blends, and Composites, Bio-Based Epoxy Polymers, Blends and Composites: Synthe- sis, Properties, Characterization and Applications, Wiley, Hoboken, USA, 2021, pp. 285-307. [7] W. Post, A. Susa, R. Blaauw, K. Molenveld, R.J.I.Knoop, Polym. Rev. 60(2020) 359-388. [8] H. Memon, Y. Wei, C. Zhu, Polym. Test. 105(2022) 107420. [9] A. Dasari, Z.-Z. Yu, G.-P. Cai, Y.-W. Mai, Prog. Polym. Sci. 38(2013) 1357-1387. [10] B. Schartel, Materials 3 (2010) 4710-4745. [11] S. Hörold, in: Phosphorus-based and Intumescent Flame Retardants, Elsevier, Amsterdam, Netherlands, 2014, pp. 221-254. [12] X. Shan, K. Jiang, J. Li, Y. Song, J. Han, Y. Hu, Polymers 11 (2019) 71. [13] R.N. Rothon, P.R. Hornsby, Polym. Degrad. Stabil. 54(1996) 383-385. [14] M. Martins, C.M. Pereira, Solid State Phenom. 151(2009) 72-78. [15] L. Guadagno, M. Raimondo, V. Vittoria, L. Vertuccio, C. Naddeo, S. Russo, B. De Vivo, P. Lamberti, G. Spinelli, V. Tucci, RSC Adv. 4(2014) 15474-15488. [16] A. Toldy, B. Szolnoki, G. Marosi, Polym. Degrad. Stab. 96(2011) 371-376. [17] R.A. Mensah, V. Shanmugam, S. Narayanan, J.S. Renner, K. Babu, R.E. Neisiany, M. Försth, G. Sas, O. Das, Polym. Test. 108(2022) 107511. [18] V. Shanmugam, O. Das, R.E. Neisiany, K. Babu, S. Singh, M.S. Hedenqvist, F. Berto, S. Ramakrishna, Mater. Circ. Econ. 2(2020) 1-11. [19] Global Plastics Outlook - Plastics Waste by Region and End-of-Life Fate-Projections, 2023 OurWorldInData.org https://stats.oecd.org/Index.aspx?DataSetCode=PLASTIC_WASTE_V2_2 . [20] M.L.M.Broeren, K. Molenveld, M.J.A. van den Oever, M.K. Patel, E. Worrell, L. Shen, J. Clean. Prod. 135(2016) 30-41. [21] S.M.Al-Salem, A.Antelava, A. Constantinou, G. Manos, A. Dutta, J. Environ. Manag. 197(2017) 177-198. [22] G. Salfate, J. Sánchez, Polymers 14 (2022) 4786. [23] C. Gao, S. Huo, Z. Cao, Front. Mater. 8(2021) 712188. [24] L. Delva, S. Hubo, L. Cardon, K. Ragaert, Waste Manag. 82(2018) 198-206. [25] M.A. Charitopoulou, K.G. Kalogiannis, A.A. Lappas, D.S. Achilias, Environ. Sci. Pollut. Res. 28(2021) 59190-59213. [26] S.M.Al-Salem, P.Lettieri, J. Baeyens, Prog. Energy Combust. Sci. 36(2010) 103-129. [27] S. Ügdüler, K.M.Van Geem, M.Roosen, E.I.P. Delbeke, S. De Meester, Waste Manag. 104(2020) 148-182. [28] D. Moscatelli, M. Pelucchi, Towards Circular Economy: Closing the Loop with Chemical Recycling of Solid Plastic Waste, Academic Press, St. Salt Lake City, USA, 2022. [29] R. Kol, P. Nachtergaele, T. De Somer, D.R. D'hooge, D.S. Achilias, S. De Meester, Ind. Eng. Chem. Res. 61(2022) 10999-11011. [30] A.H. Tullo, Chem. Eng. News 98 (2020) 39. [31] P. Xiong, X. Yan, Q. Zhu, G. Qu, J. Shi, C. Liao, G. Jiang, Environ. Sci. Technol. 53(2019) 13551-13569. [32] E.A.R. Zuiderveen, J.C. Slootweg, J. de Boer, Chemosphere 255 (2020) 126816. [33] E.N. Kalali, S. Lotfian, M.E. Shabestari, S. Khayatzadeh, C. Zhao, H.Y. Nezhad, Curr. Opin. Green Sustain.Chem. 40(2023) 100763. [34] G.C. Laredo, J. Reza, E.M. Ruiz, Clean. Chem. Eng. 5 (2023) 10 0 094. [35] Regulatory Strategy for Flame Retardants, 2023 https://echa.europa.eu/documents/10162/2082415/?ame_retardants_strategy_en.pdf/9dd56b7e-4b62- e31b- 712f- 16cc51d0e724?t=1679045593845 (last access: 17/01/2024). [36] K.S. Betts, Environ. Health Perspect. 116(2008) A210-A213. [37] I.S. Lase, K. Ragaert, J. Dewulf, S. De Meester, Resour. Conserv. Recycl. 174(2021) 105772. [38] H. Vahabi, R. Sonnier, L. Ferry, Polym. Int. 64(2015) 313-328. [39] L.Santo Stefano, L.M. Cafiero, D. De Angelis, S. Pavoni, R. Tuffi, M.Scarsella, Therm. Sci. Eng. Prog. 48(2024) 102403. [40] H. Nishida, Y. Fan, T. Mori, N. Oyagi, Y. Shirai, T. Endo, Ind. Eng. Chem. Res. 44(2005) 1433-1437. [41] C. Bascucci, I. Duretek, S. Lehner, C. Holzer, S. Gaan, R. Hufenus, A. Gooneie, Polym. Degrad. Stabil. 195(2022) 109783. [42] N. Morita, Y. Kawabata, T. Wajima, A.T. Saito, H. Nakagome, in: Proceedings to the 3rd International Conference on Chemical and Food Engineering, Tokyo, Japan, April 8-9, 2016. [43] S.J. Pickering, Compos. Part A 37 (2006) 1206-1215. [44] C. Vasile, M.A. Brebu, T. Karayildirim, J. Yanik, H. Darie, Fuel 86 (2007) 477-485. [45] T. Uekert, A. Singh, J.S.DesVeaux, T.Ghosh, A. Bhatt, G. Yadav, S. Afzal, J. Walzberg, K.M. Knauer, S.R. Nicholson, ACS Sustain. Chem. Eng. 11(2023) 965-978. [46] F. Wei, J. Zhang, C. Wu, M. Luo, B. Ye, H. Zhang, J. Wang, M. Miao, T. Li, D. Zhang, Macromolecules 56 (2023) 5290-5305. [47] J. Zhang, F. Zeng, B. Liu, Z. Wang, X. Lin, H. Zhao, Y. Wang, Mater. Horiz. 10(2023) 4551-4561. [48] P.D. Goring, R.D. Priestley, JACS Au 3 (2023) 2609-2611. [49] H. Jung, G. Shin, H. Kwak, L.T. Hao, J. Jegal, H.J. Kim, H. Jeon, J. Park, D.X. Oh, Chemosphere 320 (2023) 138089. [50] T. Türel, Z.E. Tomović, ACS Sustain. Chem. Eng. 11(2023) 308-8316. [51] S. Wang, S. Ma, Q. Li, W. Yuan, B. Wang, J. Zhu, Macromolecules 51 (2018) 8001-8012. [52] M. Molica Colella, C. Panza, I. Panza, A. Invito, L. Borge Del Rey, in: A Study of the State-of-the-Art and Potential Impact of Phosphorus, Inor-ganic and Nitrogen Flame Retardants (PIN FRs) on Plastic Recycling, PINFA Newsletter, 2023, pp. 1-124. https://www.pinfa.eu/wp-content/uploads/2023/03/pinfa_PNO_Impact-of-PIN-FRs-on-plastic-recycling_202302.pdf. [53] J.R. Peeters, P. Vanegas, L. Tange, J. Van Houwelingen, J.R.Duflou, Resour.Con- serv. Recycl. 84(2014) 35-43. [54] N. Phonthamachai, H. Chia, X. Li, F. Wang, W.W. Tjiu, C. He, Polymer 51 (2010) 5377-5384. [55] An Analysis of European Plastics Production, Demand and Waste Data, 2016 https://plasticseurope.org/wp-content/uploads/2021/10/2016-Plastic-the-facts.pdf (last access: 17/01/2024). [56] R. Geyer, J.R. Jambeck, K.L. Law, Sci. Adv. 3(2017) e1700782. [57] M. Zhang, A. Buekens, X. Li, J. Hazard. Mater. 304(2016) 26-39. [58] S. Susan, Rev. Environ. Health. 25(2010) 261-306. [59] C. Leonetti, C.M. Butt, K. Hoffman, S.C. Hammel, M.L. Miranda, H.M. Stapleton, Environ. Health. 15(2016) 113. [60] C. Imparato, A. Bifulco, B. Silvestri, G. Vitiello, Catalysts 12 (2022) 289. [61] G. Suzuki, M. Someya, S. Takahashi, S. Tanabe, S.-I. Sakai, H.Takigami, Envi- ron. Sci. Technol. 44(2010) 8330-8336. [62] M. Sharkey, S. Harrad, M. Abou-Elwafa Abdallah, D.S. Drage, H. Berresheim, Environ. Int. 144(2020) 106041. [63] K. Patora, W. Olympia, Final Regulatory Analyses: Including the:- Final Cost-Benefit Analysis, Department of Ecology State of Washington, 2022 https://apps.ecology.wa.gov/publications/documents/2202047.pdf (last access: 17/01/2024). [64] P. Glarborg, in: T. Faravelli, F. Manenti, E. Ranzi, Computer Aided Chemical Engineering, Elsevier, Amsterdam, Netherlands, 2019, pp. 603-645. [65] D.E. Oram, M.J. Ashfold, J.C. Laube, L.J. Gooch, S. Humphrey, W.T. Sturges, E. C.Leedham Elvidge, G.L. Forster, N.R.P. Harris, M.I. Mead, A .A. Samah, S.M. Phang, C.-F. Ou-Yang, N.-H. Lin, J.-L. Wang, A.K. Baker, C.A.M. Bren-ninkmeijer, D. Sherry, Atmos. Chem. Phys. 17(2017) 11929-11941. [66] G. Söderström, S. Marklund, Environ. Sci. Technol. 36(2002) 1959-1964. [67] J.W. Summers, B.K. Mikofalvy, H.K. Boo, J.M. Krogstie, W.A. Sell, J.C. Rodriguez, J. Vinyl Technol. 14(1992) 166-170. [68] I. Janajreh, M. Alshrah, S. Zamzam, Sustain. Cities Soc. 18(2015) 13-20. [69] R. Taurino, P. Pozzi, T. Zanasi, Waste Manag. 30(2010) 2601-2607. [70] J. Beigbeder, D. Perrin, J.-F. Mascaro, J.-M. Lopez-Cuesta, Resour. Conserv. Re- cycl. 78(2013) 105-114. [71] E.D. Weil, S. Levchik, J. Fire Sci. 22(2004) 251-264. [72] J. Wesołowski, K. Płachta, Fibres Text. East. Eur. 6(2016) 12-18. [73] S. Zhang, P. Wang, L. Tan, H. Huang, G. Jiang, RSC Adv. 5(2015) 13296-13306. [74] L. De Vos, B. Van de Voorde, L.Van Daele, P. Dubruel, S. Van Vlierberghe, Eur. Polym. J. 161(2021) 110840. [75] F. Awaja, D. Pavel, Eur. Polym. J. 41(2005) 1453-1477. [76] Z. Shuidong, T. Lingcao, L. Jizhao, H. Hanxiong, J. Guo, Polym. Degrad. Stabil. 105(2014) 140-149. [77] E. Maitre, E. Maitre-Ekern, C. Dalhammar, H.C. Bugge, Preventing Environ- mental Damage from Products: An Analysis of the Policy and Regulatory Framework in Europe, Cambridge University Press, UK, 2018. [78] A. Haarman, S. Fedato, H. Aubrey, Brominated Flame Retardants and the Circular Economy of WEEE Plastics, Report from BSEF-The International Bromine Council, State of Play, 2023 https://www.bsef.com/wp-content/uploads/2023/09/Brominated-Flame-Retardants-and-the-Circular-Economy-of-WEEE-Plastics.pdf (last access: 17/01/2023). [79] A. Haarman, F. Magalini, J. Courtois, Study on the Impacts of Brominated Flame Retardants on the Recycling of WEEE Plastics in Europe, Sofies, Geneva, Switzerland, 2020 https://www.bsef.com/wp-content/uploads/2020/11/Study-on-the-impact-of-Brominated-Flame-Retardants-BFRs-on-WEEE-plastics-recycling-by-Sofies-Nov-2020-1.pdf (last access: 17/01/2024). [80] T. Yamawaki, Fire Mater. 27(2003) 315-319. [81] Y. Kakuta, K. Hirano, M. Sugano, K. Mashimo, Waste Manag. 28(2008) 615-621. [82] J.D. Bernal, D.R. Dasgupta, A.L. Mackay, Clay Miner. Bull. 4(1959) 15-30. [83] S. Ling, K. Huang, M. Tariq, Y. Wang, X. Chen, W. Zhang, K. Lin, B. Zhou, Chem. Eng. J. 362(2019) 938-946. [84] A. Khaled, A. Rivaton, C. Richard, F. Jaber, M. Sleiman, Environ. Sci. Technol. 52(2018) 11123-11131. [85] F. Kern, H. Sharp, S. Hachmann, Environ. Innov. Soc. Transit. 37(2020) 171-186. [86] W. Montanari, D. Antonini, R. Avella, V. Frioni, M. Giffoni, M. Masi, K. Prifti, M. Villano, G. Regattieri, Chem. Eng. Trans. 98(2023) 1-8. [87] X. Yang, L. Sun, J. Xiang, S. Hu, S. Su, Waste Manag. 33(2013) 462-473. [88] P. Evangelopoulos, S. Arato, H. Persson, E. Kantarelis, W. Yang, Waste Manag. 94(2019) 165-171. [89] Y. Yuan, B. Yu, Y. Shi, L. Mao, J. Xie, H. Pan, Y. Liu, W. Wang, Polymers 12 (2020) 64. [90] M. Schlummer, A. Maurer, S. Wagner, A. Berrang, T. Fell, F. Knappich, Adv. Recycl. Waste Manag. 2 (2017) 1000131. [91] G.F. Cardamone, F. Ardolino, U. Arena, Sustain. Prod. Consum. 29(2022) 115-127. [92] L.T. Creadore, M.J. Castaldi, J. Energy Resour.Technol. 145(2023) 042201. [93] B.D. Vogt, K.K. Stokes, S.K. Kumar, A.C.S.Appl, Polym. Mater. 3(2021) 4325-4346. [94] S. Ferjan, A. Schwarz, T.V.Harmelen, in: Proceedings (ECI Symposium Se- ries) to the Life cycle Impacts of WEEE Plastics Recycling Within the PLAST2bCLEANED Project in WasteLCA_3: Life Cycle Sustainability Assess- ment For Waste Management And Resource Optimization, Calabria, Italy, June 5-10, 2022. [95] Y. Wang, F.-S. Zhang, J.Hazard. Mater. 205(2012) 156-163. [96] F.-R. Xiu, Y.Qi, F.-S. Zhang, Waste Manag. 33(2013) 1251-1257. [97] Y. Li, L. Lv, W. Wang, J. Zhang, J. Lin, J. Zhou, M. Dong, Y. Gan, I. Seok, Z. Guo, Polymer 190 (2020) 122198. [98] S. Xu, Z. Han, K. Yuan, P. Qin, W. Zhao, T. Lin, T. Zhou, F. Huang, Nat. Rev. Methods Primers 3 (2023) 44. [99] W.O. Collinge, C.L. Thiel, N.A. Campion, S.G.Al-Ghamdi, C.L. Woloschin, K. So- ratana, A.E. Landis, M.M. Bilec, Procedia Eng. 118(2015) 662-669. [100] S.B. Initiative, Communication from the Commission to the European Parlia- ment, The Council, the European Economic and Social Committee and the Committee of the Regions, Creating a favourable Climate For Social Enter-prises, Key Stakeholders in the Social Economy and Innovation, 2018 https: //www.socialeconomy.eu.org/wp-content/uploads/2023/01/COM2011682_0.pdf. [101] S. Chu, Critical Materials strategy, DIANE Publishing, U.S. Department of En- ergy, 2011 https://www.energy.gov/sites/prod/files/DOE_CMS2011_FINAL_Full.pdf. [102] M. Filella, P. Hennebert, G. Okkenhaug, A. Turner, J. Hazard. Mater. 390(2020) 121764. [103] D. Dupont, S. Arnout, P.T. Jones, K. Binnemans, J. Sustain. Metall. 2(2016) 79-103. [104] L. Mascia, L. Prezzi, B. Haworth, J. Mater. Sci. 41(2006) 1145-1155. [105] A.B. Morgan, J.W. Gilman, Fire Mater 37 (2013) 259-279. [106] G. Zhang, P. Ding, M. Zhang, B. Qu, Polym. Degrad. Stabil. 92(2007) 1715-1720. [107] C.L. Basel, Clariant Ltd. https://www.clariant.com/en/Corporate/News/2019/08/Clariant-making-its-Additives-fit-for-reuse-halogenfree-?ame-retardant-allowing-re-and-upcycling-of (last access: 17/01/2024) [108] S. Quattrosoldi, N. Lotti, M. Soccio, C. Schick, R. Androsch, Polymers 12 (2020) 1099. [109] C. Chaine, A.S. Hursthouse, B. McLean, I. McLellan, B. McMahon, J. McNulty, J. Miller, E. Viza, Int. J. Environ. Res. Public Health 19 (2022) 766. [110] K. Ragaert, L. Delva, K. Van Geem, Waste Manag. 69(2017) 24-58. [111] L. Tange, J.A.Van Houwelingen, J.R. Peeters, P. Vanegas, Adv. Produc. Eng. Manag. 8(2013) 67-77. [112] I. Van der Veen, J. de Boer, Chemosphere 88 (2012) 1119-1153. [113] X. Almeras, M.L. Bras, P. Hornsby, S. Bourbigot, G. Marosi, P. Anna, R. Delobel, J. Fire Sci. 22(2004) 143-161. [114] X. Almeras, M.Le Bras, P. Hornsby, S. Bourbigot, G. Marosi, P. Anna, R. Delobel, Prog. Rubber Plast. Recycl. 20(2004) 25-45. [115] A .S.F. Santos, J.A .M. Agnelli, D.W. Trevisan, S. Manrich, Polym. Degrad. Stabil. 77(2002) 4 41-4 47. [116] D. Statler, E. Stajduhar, R.K. Gupta, J. Fire Sci. 26(2008) 331-350. [117] M. Casetta, D. Delaval, M. Traisnel, S. Bourbigot, Macromol. Mater. Eng. 296(2011) 494-505. [118] T. Imai, S. Hamm, K.P. Rothenbacher, Environ. Sci. Technol. 37(2003) 652-656. [119] R.B. Dawson, S.D. Landry, Recyclability of flame retardant HIPS, PC/ABS,PPO/HIPS used in electrical and electronic equipment, Proceedings of the2005 IEEE International Symposium on Electronics and the Environment, IEEE Xplore, pp. 77-82. [120] P.A. Wäger, M. Schluep, E. Müller, R. Gloor, Environ. Sci. Technol. 46(2012) 628-635. [121] V.V. Iakovlev, S.A. Guelcher, R. Bendavid, J. Biomed. Mater.Res. 105(2017) 237-248. [122] N. Li, Y. Xia, Z. Mao, L. Wang, Y. Guan, A. Zheng, Polym. Degrad. Stabil. 97(2012) 1737-1744. [123] I. Turku, T. Kärki, Compos. Part A 81 (2016) 305-312. [124] H. Zaman, Adv. J. Sci. Eng. 4(2023) 042014. [125] B. Bodzay, M. Fej ˝os, K. Bocz, A. Toldy, F. Ronkay, G. Marosi, Express Polym. Lett. 6(2012) 895-902. [126] A. Polyportis, L. Magnier, R. Mugge, Circ. Econ. Sust. 3(2023) 939-952. [127] S. Saraji, S. Chen, Germany, 2023. [128] H. Wang, Z. Zhu, J. Yuan, H. Wang, Z. Wang, F. Yang, J. Zhan, L. Wang, Compos. Commun. 27(2021) 100852. [129] Y. Wang, H. Wang, L. Wang, Z. Zhu, React. Funct. Polym. 192(2023) 105728. [130] L. Dong, Y. Xue, H. Huang, D. Shen, W. Gao, F. Xu, Y. Weng, Y. Zhang, Polym. Degrad. Stabil. 214(2023) 110412. [131] A. Gooneie, P. Simonetti, P. Rupper, R. Nazir, M. Jovic, S. Gaan, M.P. Heuberger, R. Hufenus, Mater. Lett. 276(2020) 128225. [132] A. Gooneie, P. Simonetti, K.A. Salmeia, S. Gaan, R. Hufenus, M.P. Heuberger, Polym. Degrad. Stabil. 160(2019) 218-228. [133] V. Beghetto, V. Gatto, R. Samiolo, C. Scolaro, S. Brahimi, M. Facchin, A. Visco, Environ. Pollut. 334(2023) 122102. [134] G. Xu, Q. Wang, Green Chem. 24(2022) 2321-2346. [135] Y. Miao, A. von Jouanne, A. Yokochi, Polymers 13 (2021) 449. [136] L. Wang, Y. Liu, H. Lu, Z. Huang, Chemosphere 259 (2020) 127402. [137] K.M. Zadeh, D. Ponnamma, M.A .A. Al-Maadeed, Polym. Test. 61(2017) 341-348. [138] X. Feng, Z. Wang, H. Ma, B. Dang, J. Li, J. Appl. Polym.Sci. 140(2023) e53927. [139] D.G. Bucknall, Philos. Trans. Royal Soc. A 378 (2020) 20190268. [140] P.A. Arrabiyeh, D. May, M. Eckrich, A.M. Dlugaj, Polym. Compos. 42(2021) 5630-5655. [141] K.V.S. Rajmohan, C. Ramya, M.R. Viswanathan, S. Varjani, Curr. Opin. Environ. Sci. Health 12 (2019) 72-84. [142] J. Qureshi, Sustainability 14 (2022) 16855. [143] D. Lazarevic, E. Aoustin, N. Buclet, N. Brandt, Resour. Conserv. Recycl. 55(2010) 246-259. [144] E. Morici, N.T. Dintcheva, Polymers 14 (2022) 4153. [145] A.M. de Jong, A.-C. Mellquist, Sustainability 13 (2021) 2007. [146] M.Y. Khalid, Z.U. Arif, W. Ahmed, H. Arshad, Substain. Mater. Technol. 31(2021) e00382. [147] L.C. Bank, F.R. Arias, A. Yazdanbakhsh, T.R. Gentry, T. Al-Haddad, J.-F. Chen, R. Morrow, Recycling 3 (2018) 3. [148] S. Utekar, V.K. Suriya, N. More, A. Rao, Compos. Part B 207 (2021) 108596. [149] K.L. Pickering, G.W. Beckermann, S.N. Alam, N.J. Foreman, Compos. Part A 38 (2007) 461-468. [150] L. Guo, L. Xu, Y. Ren, Z. Shen, R. Fu, H. Xiao, J. Liu, J. Environ. Chem.-Eng. 10(2022) 107510. [151] W. Ferdous, A. Manalo, R. Siddique, P. Mendis, Y. Zhuge, H.S. Wong, W. Lokuge, T. Aravinthan, P. Schubel, Resour. Conserv. Recycl. 173(2021) 105745. [152] S. Ma, D.C. Webster, Prog. Polym. Sci. 76(2018) 65-110. [153] B. Krishnakumar, R.V.S.P. Sanka, W.H. Binder, V. Parthasarthy, S. Rana, N. Karak, Chem. Eng. J. 385(2020) 123820. [154] W. Alabiso, S. Schlögl, Polymers 12 (2020) 1660. [155] D.A. Kissounko, P. Taynton, C. Kaffer, Reinf. Plast. 62(2018) 162-166. [156] W.W. Klingler, A. Bifulco, C. Polisi, Z. Huang, S. Gaan, Compos. Part B 258 (2023) 110667. [157] N. Zheng, Y. Xu, Q. Zhao, T. Xie, Chem. Rev. 121(2021) 1716-1745. [158] J. Zhang, V.S. Chevali, H. Wang, C.-H. Wang, Compos. Prt. B 193 (2020) 108053. [159] F. Ferrari, G.A. Carallo, A. Greco, Polymers 14 (2022) 3878. [160] L. Stieven Montagna, G. Ferreira de Melo Morgado, A.P. Lemes, F.R. Passador, J. Thermoplast. Compos. Mater. 36(2023) 3455-3480. [161] M.P. Luda, A.I. Balabanovich, M. Zanetti, D. Guaratto, Polym. Degrad. Stabil. 92(2007) 1088-1100. [162] X. Xue, S.-Y. Liu, Z.-Y. Zhang, Q.-Z. Wang, C.-Z. Xiao, J. Reinf. Plast. Compos. 41(2022) 459-480. [163] V.K. Soni, G. Singh, B.K. Vijayan, A. Chopra, G.S. Kapur, S.S.V. Ramakumar, En- ergy Fuels 35 (2021) 12763-12808. [164] M.P. Luda, A.I. Balabanovich, M. Zanetti, J. Anal. Appl.Pyrol. 88(2010) 39-52. [165] M. Altarawneh, O.H. Ahmed, Z.-T. Jiang, B.Z. Dlugogorski, J. Phys. Chem. A 120 (2016) 6039-6047. [166] M.-X. Xu, H.-W. Ji, Y.-C. Wu, J.-Y. Di, X.-X. Meng, H. Jiang, Q. Lu, Compos. Part B 251 (2023) 110493. [167] S.R. Naqvi, H.M. Prabhakara, E.A. Bramer, W. Dierkes, R. Akkerman, G. Brem, Resour. Conserv. Recycl. 136(2018) 118-129. [168] B. Wang, X. Wang, N. Xu, Y. Shen, F. Lu, Y. Liu, Y. Huang, Z. Hu, Compos. Sci. Technol. 203(2021) 108589. [169] M. Shen, H. Cao, M.L. Robertson, Annu. Rev. Chem. Biomol. Eng. 11(2020) 183-201. [170] A.D.La Rosa, S.Greco, C. Tosto, G. Cicala, J. Clean. Prod. 304(2021) 127158. [171] G. Fortunato, L. Anghileri, G. Griffini, S. Turri, Polymers 11 (2019) 1007. [172] G. Oliveux, J.-L. Bailleul, E.L.G. La Salle, Compos. Part A 43 (2012) 1809-1818. [173] S. Shetty, B.R. Pinkard, I.V. Novosselov, Heliyon 8 (2022) e12242. [174] Y.F. Khalil, Sustain. Prod. Consum. 17(2019) 74-84. [175] R. Panda, K.K. Pant, T. Bhaskar, S.N. Naik, J. Clean. Prod. 291(2021) 125928. [176] Y.-O. Kim, J. Cho, Y.N. Kim, K.W. Kim, B.W. Lee, J.W. Kim, M. Kim, Y.C. Jung, Compos. Part B 197 (2020) 108173. [177] D.V. Rosato, D.V. Rosato, M.V. Rosato, Netherlands, 2004. [178] A.C.M.Castro, J.P. Carvalho, M.C.S.Ribeiro, J.P. Meixedo, F.J.G. Silva, A. Fiúza, M. L. Dinis, J. Clean. Prod. 66(2014) 420-430. [179] G. Oliveux, L.O. Dandy, G.A. Leeke, Prog. Mater. Sci. 72(2015) 61-99. [180] Y. Yao, B. Wang, F. Zhao, Z. Hu, Y. Huang, A.C.S.Appl, Polym. Mater. 4(2022) 999-1009. [181] M. Włoch, USA, 2021, pp. 265-284. [182] M. Szycher, in: Handbook of Polyurethanes, 2nd ed., CRC Press, Boca Raton, USA, 2012, pp. 417-448. [183] A. Eschenbacher, R.J. Varghese, J. Weng, K.M.Van Geem, J.Anal. Appl. Pyrol. 160(2021) 105374. [184] Y. Deng, R. Dewil, L. Appels, R. Ansart, J. Baeyens, Q. Kang, J. Environ. Manage. 278(2021) 111527. [185] R.V. Gadhave, S. Srivastava, P.A. Mahanwar, P.T. Gadekar, Open J. Polym. Chem. 9(2019) 39-51. [186] B. Eling, Ž. Tomović, V. Schädler, Macromol. Chem. Phys. 221 (2020) 20 0 0114. [187] M.-Y. Shen, Z.-H. Guo, W.-T. Feng, Compos. Part B 264 (2023) 110878. [188] E.H. Gürkan, B. Yaman, J. Taibah Univ.Sci. 17(2023) 2233757. [189] H. Stančin, J. Růžičková, H. Mikulčić, H. Raclavská, M. Kucbel, X. Wang, N. Duić, J. Environ. Manage. 243(2019) 105-115. [190] C. Zhang, H. He, Q. Li, X. Liang, Polym. Int. 71(2022) 1193-1200. [191] M. Li, J. Luo, Y. Huang, X. Li, T. Yu, M. Ge, J. Appl. Polym.Sci. 131(2014) 40857. [192] C.N. Hoang, C.T. Pham, T.M. Dang, D. Hoang, P.-C. Lee, S.-J. Kang, J. Kim, Poly- mers 11 (2019) 236. [193] N.H. Ly, S.-W. Joo, J.Choo, Y. Vasseghian, J. Cho, S. Rezania, Chem. Eng. J. 471(2023) 144324. [194] P. Das, J.-C.P. Gabriel, C.Y. Tay, J.-M. Lee, Chemosphere 269 (2021) 129409. [195] O. Deubzer, in: Reduction of Hazardous Materials in Electrical and Electronic equipment, Waste Electrical and Electronic Equipment (WEEE) Handbook, El- sevier, Amsterdam, Netherlands, 2019, pp. 207-230. [196] D. Yu, H. Duan, Q. Song, Y. Liu, Y. Li, J. Li, W. Shen, J. Luo, J. Wang, Waste Manag. 68(2017) 498-507. [197] S.M. Abdelbasir, S.S.M.Hassan, A.H. Kamel, R.S. El-Nasr, Environ.Sci. Pollut. Res. 25(2018) 16533-16547. [198] M.G.K. Houessionon, E.-M.D. Ouendo, C. Bouland, S.A. Takyi, N.M. Kedote, B. Fayomi, J.N. Fobil, N. Basu, Int. J. Environ. Res. Public Health 18 (2021) 3517. [199] M. Ciesielski, A. Schäfer, M. Döring, Polym. Adv. Technol. 19(2008) 507-515. [200] T. Mariappan, C. Wilkie, Fire Mater. 38(2014) 588-598. [201] M. Ciesielski, J. Diederichs, M. Döring, A. Schäfer, in: Advanced Flame-Retar- dant Epoxy Resins for Composite Materials, Fire and Polymers V, American Chemical Society, Washington, DC, USA, 2009, pp. 174-190. [202] B. Sood, M. Pecht, Microelectron. Reliab. 82(2018) 235-243. [203] H. Fu, S. Tisdale, M. Rausch, J. Davignon, S.H. Hall, R.C.Pfahl, in: iNEMI HFR-free Program Report, IEEE, 2009, pp. 627-632. [204] S.-R. Shin, V.D. Mai, D.-S. Lee, Processes 7 (2019) 22. [205] S. Sontakke, B. Parvat, S. Bhagat, Pravara J. Sci. Technol. 1(2017) 23-30. [206] S. Krishnamoorthy, G. Ramakrishnan, B. Dhandapani, IET Nanobiotechnol. 15(2021) 212-220. [207] A. Luyima, Missouri University of Science and Technology, 2013. [208] C. Khaobang, P. Sarabhorn, C. Siripaiboon, F. Scala, C. Areeprasert, Energy 245 (2022) 123268. [209] M. Xing, Y. Li, L. Zhao, X. Song, Z. Fu, Y. Du, X. Huang, Waste Manag. 102(2020) 464-473. [210] J.M. Winne, L. Leibler, F.E.Du Prez, Polym. Chem. 10(2019) 6091-6108. [211] C.J. Kloxin, C.N. Bowman, Chem. Soc. Rev. 42(2013) 7161-7173. [212] M. Hayashi, Polymers 12 (2020) 1322. [213] T. Debsharma, V. Amfilochiou, A .A. Wróblewska, I.De Baere, W. Van Paepegem, F.E. Du Prez, J. Am. Chem. Soc. 144(2022) 12280-12289. [214] M.A. Rashid, W. Liu, Y. Wei, Q. Jiang, Eur. Polym. J. 173(2022) 111263. [215] S. Majumdar, H. Zhang, M. Soleimani, R.A.T.M. Van Benthem, J.P.A.Heuts, R.P. Sijbesma, ACS Macro Lett. 9(2020) 1753-1758. [216] P. Shieh, W. Zhang, K.E.L. Husted, S.L. Kristufek, B. Xiong, D.J. Lundberg, J. Lem, D. Veysset, Y. Sun, K.A. Nelson, Nature 583 (2020) 542-547. [217] M.A. Rashid, W. Liu, Y. Wei, Q. Jiang, J. Appl. Polym.Sci. 139(2022) e52493. [218] H. Zhang, J. Cui, G. Hu, B. Zhang, Int. J. Smart Nano Mater. 13(2022) 367-390. [219] K. Yu, P. Taynton, W. Zhang, M.L. Dunn, H.J. Qi, RSC Adv. 4(2014) 10108-10117. [220] B. Zhang, H. Li, C. Yuan, M.L. Dunn, H.J. Qi, K. Yu, Q. Shi, Q. Ge, J. Appl. Polym.Sci. 137(2020) 49246. [221] M. Delahaye, J.M. Winne, F.E.Du Prez, J.Am. Chem. Soc. 141(2019) 15277-15287. [222] D. Montarnal, M. Capelot, F. Tournilhac, L. Leibler, Science 334 (2011) 965-968. [223] B. Zhang, C. Yuan, W. Zhang, M.L. Dunn, H.J. Qi, Z. Liu, K. Yu, Q. Ge, RSC Adv. 9(2019) 5431-5437. [224] T. Liu, B. Zhao, J. Zhang, Polymer 194 (2020) 122392. [225] C. Scazzoli, R. Trigueira, A. Cohades, V. Michaud, Front. Mater. 9(2022) 461. [226] G. Cicala, S. Mannino, A.D.La Rosa, D.R. Banatao, S.J. Pastine, S.T. Kosinski, F. Scarpa, Polym. Compos. 39(2018) E2217-E2225. [227] X. Yang, Y. Ke, Q. Chen, L. Shen, J. Xue, R.L. Quirino, Z. Yan, Y. Luo, C. Zhang, J. Clean. Prod. 333(2022) 130043. [228] T. Takekoshi, J.M. Terry, Polymer 35 (1994) 4 874-4 880. [229] S.-H. Lee, S.-R. Shin, D.-S. Lee, Mater. Des. 172(2019) 107774. [230] S. Wang, S. Ma, Q. Li, X. Xu, B. Wang, W. Yuan, S. Zhou, S. You, J. Zhu, Green Chem. 21(2019) 1484-1497. [231] T. Liu, J. Peng, J. Liu, X. Hao, C. Guo, R. Ou, Z. Liu, Q. Wang, Compos. Part B 224 (2021) 109188. [232] X. Zhang, Y. Eichen, Z. Miao, S. Zhang, Q. Cai, W. Liu, J. Zhao, Z. Wu, Chem. Eng. J. 440(2022) 135806. [233] P. Taynton, K. Yu, R.K. Shoemaker, Y. Jin, H.J. Qi, W. Zhang, Adv. Mater. 26(2014) 3938-3942. [234] J.-N. Wu, L.Chen, T. Fu, H.-B. Zhao, D.-M. Guo, X.-L. Wang, Y.-Z. Wang, Chem. Eng. J. 336(2018) 622-632. [235] H. Ding, J. Wang, P. Yu, H. He, H. Wang, L. Wang, W. Zhang, Y. Lei, B. Yu, Chem. Eng. J. 481(2023) 148024. [236] D.J. Fortman, J.P. Brutman, G.X.De Hoe, R.L. Snyder, W.R. Dichtel, ACS Sustain. Chem. Eng. 6(2018) 11145-11159. [237] W. Denissen, G. Rivero, R. Nicolaÿ, L. Leibler, J.M. Winne, F.E.Du Prez, Adv. Funct. Mater. 25(2015) 2451-2457. [238] J.C. Markwart, A. Battig, T. Urbaniak, K. Haag, K. Koschek, B. Schartel, F.R. Wurm, Polym. Chem. 11(2020) 4933-4941. [239] A. Bifulco, C.D. Varganici, L. Rosu, F. Mustata, D. Rosu, S. Gaan, Polym. Degrad. Stabil. 200(2022) 109962. [240] J.M. Matxain, J.M. Asua, F. Ruipérez, Phys. Chem. Chem. Phys. 18(2016) 1758-1770. [241] C. Di Mauro, A. Genua, A. Mija, Polymers 13 (2021) 2503. [242] L. Zhou, G. Zhang, Y. Feng, H. Zhang, J. Li, X. Shi, J. Mater. Sci. 53(2018) 7030-7047. [243] Cicala G., La Rosa A.D., Latteri A., Banatao R., Pastine S., Proceedings of the CAMX2016—Composites and Advanced Materials Expo on The Use of recy- clable Epoxy and Hybrid Lay up for Biocomposites: Technical and LCA Evalu- ation, Anaheim, CA, U.S., September 26-29, 2016. [244] J.-H. Chen, X.-P. An, Y.-D. Li, M. Wang, J.-B. Zeng, Chin. J. Polym. Sci. 36(2018) 641-648. [245] M. Röttger, T. Domenech, R. van der Weegen, A. Breuillac, R. Nicolaÿ, L. Leibler, Science 356 (2017) 62-65. [246] J.H. Chen, J.H. Lu, X.L. Pu, L. Chen, Y.Z. Wang, Chemosphere 294 (2022) 133778. [247] X. Feng, G. Li, Chem. Eng. J. 417(2021) 129132. [248] P.-X. Tian, Y.-D. Li, Y. Weng, Z. Hu, J.-B. Zeng, Eur. Polym. J. 193(2023) 112078. [249] W.W. Klingler, V. Rougier, Z. Huang, D. Parida, S. Lehner, A. Casutt, D. Rentsch, K.B. Hedlund, G.A. Barandun, V. Michaud, Chem. Eng. J. 466(2023) 143051. [250] R. Nazir, A. Gooneie, S. Lehner, M. Jovic, P. Rupper, N. Ott, R. Hufenus, S. Gaan, Mater. Des. 200(2021) 109459. [251] M. Gosecki, M. Gosecka, Polymers 14 (2022) 842. [252] Y. Liu, B. Wang, S. Ma, X. Xu, J. Qiu, Q. Li, S. Wang, N. Lu, J. Ye, J. Zhu, Eur. Polym. J. 144(2021) 110236. |
[1] | Shahab Amirabadi, Mohammad Kheradmandkeysomi, Azadeh Zandieh, Peter Serles, Nicolas Tanguy, Tobin Filleter, Mohini Sain, Chul B. Park. Highly tough and flame retardant polystyrene composites by elastomeric nanofibers and hexagonal boron nitride [J]. J. Mater. Sci. Technol., 2024, 198(0): 208-220. |
[2] | Xin Wen, Cui Li, Hui Liu, Guohua Fan, Yanan Tang, Chuncheng Hao, Lili Ma, Pingan Song. Green carbonization of waste coffee grounds into porous C/Fe hybrids for broadband and high-efficiency microwave absorption [J]. J. Mater. Sci. Technol., 2024, 170(0): 1-10. |
[3] | Jiuke Chen, Sithiprumnea Dul, Sandro Lehner, Milijana Jovic, Sabyasachi Gaan, Manfred Heuberger, Rudolf Hufenus, Ali Gooneie. Mechanical recycling of PET containing mixtures of phosphorus flame retardants [J]. J. Mater. Sci. Technol., 2024, 194(0): 167-179. |
[4] | Yao Yuan, Weiliang Lin, Yi Xiao, Bin Yu, Wei Wang. Flame-retardant epoxy thermosets derived from renewable resources: Research development and future perspectives [J]. J. Mater. Sci. Technol., 2024, 195(0): 29-40. |
[5] | Zhenyu Huang, Wenyu Wu Klingler, Daniele Roncucci, Carolina Polisi, Valentin Rougier, Sandro Lehner, Milijana Jovic, Daniel Rentsch, Sithiprumnea Dul, Karin Brändli Hedlund, Véronique Michaud, Zhengzhou Wang, Sabyasachi Gaan. Enabling simultaneous reprocessability and fire protection via incorporation of phosphine oxide monomer in epoxy vitrimer [J]. J. Mater. Sci. Technol., 2024, 196(0): 224-236. |
[6] | Pengju Yang, Jie He, Baodong You, Mingwei Zhu, Shaogang Wang, Ivan Kaban, Jiuzhou Zhao. Liquid-solid phase separation and recycling of permalloys in liquid Mg [J]. J. Mater. Sci. Technol., 2024, 188(0): 27-36. |
[7] | Xiaojun Zeng, Xiawen Peng, Ya Ning, Xiao Jiang, Ronghai Yu, Xiaofeng Zhang. 3D multifunctional porous pine carbon aerogels coupled with highly dispersed CoFe nanoparticles for robust electromagnetic wave response [J]. J. Mater. Sci. Technol., 2024, 192(0): 6-18. |
[8] | Ya Ning, Xiaojun Zeng, Xiawen Peng, Xiao Jiang, Zong-Yang Shen, Chongbo Liu, Ronghai Yu. Dual template-derived 3D porous Co6Mo6C2/Mo2C@NC framework for electromagnetic wave response and multifunctional applications [J]. J. Mater. Sci. Technol., 2024, 187(0): 15-27. |
[9] | Hongyi Zhan, Guang Zeng, Qigui Wang, Congjie Wang, Pan Wang, Zhou Wang, Yiwu Xu, Devin Hess, Paul Crepeau, Jianfeng Wang. Unified casting (UniCast) aluminum alloy—a sustainable and low-carbon materials solution for vehicle lightweighting [J]. J. Mater. Sci. Technol., 2023, 154(0): 251-268. |
[10] | Yufeng Quan, Ruiqing Shen, Christian Schweizer, Pradeep Parajuli, Zhuoran Zhang, Waruna Kulatilaka, Qingsheng Wang. Synergistic effects of zeolitic imidazolate frameworks (ZIFs) with different transition metals on intumescent flame-retarded polypropylene composites: A comparative study [J]. J. Mater. Sci. Technol., 2023, 155(0): 102-110. |
[11] | Jin-Bo Cheng, Hai-Bo Zhao, Ai-Ning Zhang, Yan-Qin Wang, Yu-Zhong Wang. Porous carbon/Fe composites from waste fabric for high-efficiency electromagnetic wave absorption [J]. J. Mater. Sci. Technol., 2022, 126(0): 266-274. |
[12] | Menghe Zhu, Zhewen Ma, Lei Liu, Jianzhong Zhang, Siqi Huo, Pingan Song. Recent advances in fire-retardant rigid polyurethane foam [J]. J. Mater. Sci. Technol., 2022, 112(0): 315-328. |
[13] | Sun Hengda, Zhang Ying, Wu Yue, Zhao Yue, Zhou Ming, Liu Lie, Tang Shaolong, Ji Guangbin. Broadband absorption of macro pyramid structure based flame retardant absorbers [J]. J. Mater. Sci. Technol., 2022, 128(0): 228-238. |
[14] | Yihe Zhang, Li Zhang, Guotao Yang, Yalin Yao, Xu Wei, Tianchi Pan, Juntao Wu, Moufeng Tian, Penggang Yin. Recent advances in recyclable thermosets and thermoset composites based on covalent adaptable networks [J]. J. Mater. Sci. Technol., 2021, 92(0): 75-87. |
[15] | Shijie Xu, Ying Huang, Zhicheng Su, Rongxin Wang, Jianrong Dong, Deliang Zhu. Storage and transfer of optical excitation energy in GaInP epilayer: Photoluminescence signatures [J]. J. Mater. Sci. Technol., 2019, 35(7): 1364-1367. |
Viewed | ||||||
Full text |
|
|||||
Abstract |
|
|||||