References
- Amadou Leather. 2018. Innovative biomaterials grown from mushrooms delivering a circular, biodegradable and cruelty-free alternative to leather. Accessed October 29 2019. https://www.amadouleather.com.
- Cao, H., R. P. Wool, P. Bonanno, Q. Dan, J. Kramer, and S. Lipschitz. 2014. Development and evaluation of apparel and footwear made from renewable bio-based materials. International Journal of Fashion Design, Technology and Education 7 (1):21–30. doi:10.1080/17543266.2013.859744.
- Celino, A., S. Freour, F. Jacquemin, and P. Casari. 2014. The hygroscopic behavior of plant fibers: A review. Frontiers in Chemistry 2:12. doi:10.3389/fchem.2013.00043.
- Chauhan, N., and N. Arya. 2018. Coconut fiber: A natural versatile material. International Journal of Chemical Studies 6 (6):555–61.
- Dai, D., and M. Fan. 2014. Wood fibres as reinforcements in natural fibre composites: Structure, properties, processing and applications. In Natural Fibre Composites, 3–65. Cambridge, Sawston/UK: Elsevier - Woodhead Publishing.
- Dan and Mez. Pineapple Leather – The Leather Fabric Of The Future. Accessed November 13, 2019. https://danandmez.com/blog/pinatex/.
- Daud, Z., M. Hatta, M. Zainuri, A. Latiff, A. Aziz, and H. Awang. 2016. Corn Stalk Fiber Material by Chemical Pulping Process for Pulp and Paper Industry. Paper presented at the Advanced Materials Research 1133: 608–611. doi:10.4028/.scientific.net/AMR.1133.608.
- Debnath, S. 2016. Natural Fibres for Sustainable Development in Fashion Industry. In Sustainable Fibres for Fashion Industry: Volume 1, ed. S. S. Muthu and M. A. Gardetti, 89–108. Singapore: Springer Singapore.
- Dixit, S., A. Yadav, P. D. Dwivedi, and M. Das. 2015. Toxic hazards of leather industry and technologies to combat threat: A review. Journal of Cleaner Production 87:39–49. doi:10.1016/j.jclepro.2014.10.017.
- Djafari Petroudy, S. R. 2017. 3 - Physical and mechanical properties of natural fibers. In Advanced High Strength Natural Fibre Composites in Construction, ed. M. Fan and F. Feng, 59–83. Cambridge, Sawston/UK: Elsevier - Woodhead Publishing.
- Ecovative Design. Biomaterials. Accessed November 20, 2019a. https://ecovativedesign.com.
- Ecovative Design. Mycelium Technology. Accessed October 28, 2019b. https://mushroompackaging.com.
- Faheem, S. M., and M. A. Khan. 2015. Waste Management Methods and Sustainablity. In Advances in Bioprocess Technology, 57–78. Cham, Switzerland: Springer.
- Fernandes, M., M. Gama, F. Dourado, and A. P. Souto. 2019. Development of novel bacterial cellulose composites for the textile and shoe industry. Microbial Biotechnology 12 (4):650–61. doi:10.1111/1751-7915.13387.
- Fletcher, K., and L. Grose. 2012. Fashion and sustainability: Design for change. London, UK: Laurence King.
- Fruitleather Rotterdam. 2017. Transforming leftover fruits into durable, leather-like material. Accessed November 12 2019. https://fruitleather.nl.
- Garcia, C., and M. A. Prieto. 2019. Bacterial cellulose as a potential bioleather substitute for the footwear industry. Microbial Biotechnology 12 (4):582–85. doi:10.1111/1751-7915.13306.
- Grado Zero Innovations. 2017. MuSkin - The Mushroom Peel. Accessed September 20 2019. https://www.gzinnovation.eu/material/21/muskin-the-mu%ADshroom-peel.
- Hulle, A., P. Kadole, and P. Katkar. 2015a. Agave Americana Leaf Fibers. Fibers 3 (1):64–75. doi:10.3390/fib3010064.
- Jones, M., A. Gandia, S. John, and A. Bismarck. 2020. Leather-like material biofabrication using fungi. In Nature Sustainability 4:9–16.doi.org/10.1038/s41893-020-00606-1.
- Jozala, A. F., L. C. de Lencastre-novaes, A. M. Lopes, V. D. Santos-Ebinuma, P. G. Mazzola, A. Pessoa, D. Grotto, M. Gerenutti, and M. V. Chaud. 2016. Bacterial nanocellulose production and application: A 10-year overview. Applied Microbiology and Biotechnology 100 (5):2063–72. doi:10.1007/s00253-015-7243-4.
- Kicinska-Jakubowska, A., E. Bogacz, and M. Zimniewska. 2012. Review of Natural Fibers. Part I-Vegetable Fibers. Journal of Natural Fibers 9 (3):150–67. doi:10.1080/15440478.2012.703370.
- Kohan, L., C. R. Martins, L. O. Duarte, L. Pinheiro, and J. Baruque-Ramos. 2019. Panorama of natural fibers applied in Brazilian footwear: Materials and market. Sn Applied Sciences 1 (8):10. doi:10.1007/s42452-019-0927-0.
- Kumar, R., M. I. Ul Haq, A. Raina, and A. Anand. 2019. Industrial applications of natural fibre-reinforced polymer composites - challenges and opportunities. International Journal of Sustainable Engineering 12 (3):212–20. doi:10.1080/19397038.2018.1538267.
- Latif, R., S. Wakeel, N. Z. Khan, A. N. Siddiquee, S. L. Verma, and Z. A. Khan. 2019. Surface treatments of plant fibers and their effects on mechanical properties of fiber-reinforced composites: A review. Journal of Reinforced Plastics and Composites 38 (1):15–30. doi:10.1177/0731684418802022.
- Lee, Y. A., A. Ghalachyan, C. Xiang, G. Ramasubramanian, S. Madbouly, R. Li, and C. Farr. 2014. Exploring optimal solutions for sustainable product development using renewable bacteria cellulose fiber and biopolymer composites. Paper presented at the ITAA Proceedings. Charlotte, NC/USA, November 12-16.
- Lin, S.-P., I. L. Calvar, J. M. Catchmark, J.-R. Liu, A. Demirci, and K.-C. Cheng. 2013. Biosynthesis, production and applications of bacterial cellulose. Cellulose 20 (5):2191–219. doi:10.1007/s10570-013-9994-3.
- Malai Design & Materials. 2017. Malai: A sustainable, vegan alternative to leather. Accessed September 28 2019. http://made-from-malai.com.
- Material District. Leather-free handbag made of bacterial cellulose - ScobyTec. Accessed September 15, 2019. https://materialdistrict.com/article/handbag-bacterial-cellulose/.
- Mihai, A., C. A. Castellano, C. V. De Carvalho, R. A. P. Francés, R. S. Bizarro, A. M. Grancaric, N. Bilalis, A. M. Vasilescu, and D. Papakonstantinou. 2016. Knowledge platform for transferring research and innovation in footwear manufacturing. Paper presented at the International Conference on Advanced Materials and Systems (ICAMS). Bucharest/Romania. October 20-22.
- Milly, M. 2019. Framing leather. Fostering DIY-materials exploration in Berlin. Milan/Italy.
- Mitchell, J., G. Antoni, J. Sabu, and B. Alexander. 2020. Leather-like material biofabrication using fungi. Nature Sustainability. doi:10.1038/s41893-020-00606-1.
- Muller, D. 2018. How to do better: An exploration of better practices within the footwear industry. Change Your Shoes, eds. S. Grasgruber-Kerl, J. Szabuńko, D. Hachfeld, C. Aronsson and H. L. Severinsen, 1-14, Hamburg, Germany: EconBiz.
- Muthu, S. S., and M. A. Gardetti. 2016. Sustainable Fibres for Fashion Industry, Vol. 1. Singapore: Springer.
- MycoWorks. 2019a. Made from one of nature’s most abundant resources. Accessed October 23 2019. https://www.mycoworks.com.
- MycoWorks. Redefining leather from Mycelium. Accessed October 26, 2019b. https://www.mycoworks.com.
- Nam, C., and Y. A. Lee. 2019a. Multilayered Cellulosic Material as a Leather Alternative in the Footwear Industry. Clothing and Textiles Research Journal 37 (1):20–34. doi:10.1177/0887302x18784214.
- Ngwabebhoh, F. A., and U. Yildiz. 2019. Nature‐derived fibrous nanomaterial toward biomedicine and environmental remediation: Today’s state and future prospects. Journal of Applied Polymer Science 136 (35):47878. doi:10.1002/app.47878.
- Orange Fiber S.R.L. 2015. Sustainable fabrics from citrus juice by-products. Accessed December 02 2019. http://orangefiber.it/en/.
- Pinatex. 2017. An innovative natural textile made from pineapple leaf fibre. Accessed October 22 2019. https://www.ananas-anam.com.
- Polese, F., M. V. Ciasullo, O. Troisi, and G. Maione. 2019. Sustainability in footwear industry: A big data analysis. Sinergie Italian Journal of Management 37 (1):149–70. doi:10.7433/s108.2019.09.
- Purcell, B. P., D. T. Williamson, S. Lee, and A. Congdon. 2017. Method for biofabricating composite material. In.: Google Patents.
- Rafiq, S., R. Kaul, S. A. Sofi, N. Bashir, F. Nazir, and G. A. Nayik. 2018. Citrus peel as a source of functional ingredient: A review. Journal of the Saudi Society of Agricultural Sciences 17 (4):351–58. doi:10.1016/j.jssas.2016.07.006.
- Ramesh, M., K. Palanikumar, and K. Hemachandra Reddy. 2017. Plant fibre based bio-composites: Sustainable and renewable green materials. Renewable and Sustainable Energy Reviews 79:558–84. doi:10.1016/j.rser.2017.05.094.
- Rathinamoorthy, R. 2019. Consumer’s Awareness on Sustainable Fashion. In Sustainable Fashion: Consumer Awareness and Education, ed. S. S. Muthu, 1–36. Singapore: Springer Singapore.
- Samanta, K. K., S. Basak, and S. K. Chattopadhyay. 2015. Recycled Fibrous and Nonfibrous Biomass for Value-Added Textile and Nontextile Applications. In Environmental Implications of Recycling and Recycled Products, ed. S. S. Muthu, 167–212. Singapore: Springer Singapore.
- SwicoFil. 2018. Crabyon Fibers for Anti-Bacteria Textile Products. Accessed December 02 2019. https://www.swicofil.com/commerce/brands/various/crabyon.
- The Apple Girl. 2017. Apple to leather. Accessed November 10 2019. https://theapplegirl.org.
- Tony, S. The Top 10 Shoe Manufacturers in the World. Tharawat Magazine, Accessed November 21, 2019. https://www.tharawat-magazine.com/facts/top-10-shoe-manufacturers/#gs.kgyuu6.
- Udaily 2014. Eco-leather materials derived from natural fibers and high oleic plant oils. University of Delaware, Accessed August 15 2020. http://www1.udel.edu/udaily/2014/jun/eco-leather061614.html.
- Vegea. Biomaterials for fashion, furiture, packaging and automotive. Accessed October 20, 2019. https://www.vegeacompany.com.
- Wood, J. 2019. Bioinspiration in Fashion—A Review. Biomimetics 4 (1):8. doi:10.3390/biomimetics4010016.
- Xue, Y., Z. H. Mou, and H. N. Xiao. 2017. Nanocellulose as a sustainable biomass material: Structure, properties, present status and future prospects in biomedical applications. Nanoscale 9 (39):14758–81. doi:10.1039/c7nr04994c.
- Yu, Y., Q. Wang, and P. Wang. 2019. Bioprocessing of bast fibers. In Advances in Textile Biotechnology, 1–19. 2nd ed. A. Cavaco-Paulo, V. Nierstrasz and Q. Wan,Cambridge, Sawston/UK: Elsevier - Woodhead Publishing.