bioresources. com
PEER-REVIEWED REVIEW ARTICLE
oxide/c ellulose acetate nanocomposites,” Composites Part B 90, 223-231. DOI: 10.1016/j.compositesb.2015.12.008 Upton, L. (2018). “ Stora Enso bring bio-based lignin to market as a replacement for oil- based phenolic materials , ” Bio-based World News, (https://www.biobasedworldnews.com/stora-enso-bring-bio-based-lignin-to-market- as-a-replacement-for-oil-based-phenolic-materials) USDA. (2017a). “ Product categories, ” United States Department of Agriculture, USDA's BioPreferred program, Washington, DC. (https://biopreferred.gov/BioPreferred/faces/pages/ProductCategories.xhtml). USDA. (2017b). “ Welcome to the Biopreferred® catalog, ” United States Department of Agriculture, Washington, DC. (https://www.biopreferred.gov/BioPreferred/faces/catalog/Catalog.xhtml). Vaca-Garcia, C., Thiebaud, S., Borredon, M. E., and Gozzelino, G. (1998). “ Cellulose esteri fication with fatty acids and acetic anhydride in lithium chloride /N,N- dimethylacetamide m edium,” Journal of the American Oil Chemists' Society 75(2), 315-319. DOI: 10.1007/s11746-998-0047-2 Valentin, H. E., Broyles, D. L., Casagrande, L. A., Colburn, S. M., Creely, W. L., DeLaquil, P. A., Felton, H. M., Gonzalez, K. A., Houmiel, K. L., Lutke, K., et al. (1999). “ PHA prod uction, from bacteria to plants,” International Journal of Biological Macromolecules 25(1), 303-306. DOI: 10.1016/S0141-8130(99)00045-8 Vanholme, R., Demedts, B., Morreel, K., Ralph, J., and Boerjan, W. (2010). “ Lignin biosynthesis and structure,” Plant Physiology 153(3), 895-905. DOI: 10.1104/pp.110.155119 Vartiainen, J., Vähä-Nissi, M., and Harlin, A. (2014). “ Biopolymer films and coatings in packaging applications — A review of recent developments,” Materials Sciences and Applications 5(10), 708. Vink, E. T., Rabago, K. R., Glassner, D. A., and Gruber, P. R. (2003). “ Applications of life cycle assessment to NatureWork s™ polylactide (PLA) production,” Polymer Degradation and Stability 80(3), 403-419. DOI: 10.1016/S0141-3910(02)00372-5 Vroman, I., and Tighzert, L. (2009). “Biodegradable polymers,” Materials 2(2), 307-344. DOI: 10.3390/ma2020307 Wang, C. S., Shi, J. W., He, M., Ding, L., Li, S. P., Wang, Z. H., and Wei, J. (2018). “ High strength cellulose/ATT composite films with good oxygen barrier property for sustainable packaging applications, ” Cellulose 25(7), 4145-4154. DOI : 10.1007/s10570-018-1855-7 Wang, J., Deng, Y., Qian, Y., Qiu, X., Ren, Y., and Yang, D. (2016). “ Reduction of lignin color via one- step UV irradiation,” Green Chemistry 18(3), 695-699. DOI: 10.1039/C5GC02180D Wang, K., Jiao, T., Wang, Y., Li, M., Li, Q., and Shen, C. (2013). “ The microstructures of extrusion cast biodegradable poly (butylene succinate) films investigated by X-ray diffraction,” Materials Letters 92, 334-337. DOI: 10.1016/j.matlet.2012.10.121 Watkins, D., Nuruddin, M., Hosur, M., Tcherbi-Narteh, A., and Jeelani, S. (2015). “ Extraction and characterization of lignin f rom different biomass resources,” Journal of Materials Research and Technology 4(1), 26-32. DOI: 10.1016/j.jmrt.2014.10.009 Weber, C. J. (2000). “ Biobased packaging materials for the food industry: Status and perspectives, a European concerted act ion,” Kongelige Veterinaer- og Landbohoejskole, Copenhagen.
49
Helanto et al. (2019). “ Bio-based barriers ,” B io R esources 14(2), Pg #s to be added.
Made with FlippingBook - Online catalogs