Biocomposites reinforced with natural fibers: 2000–2010 O Faruk, AK Bledzki, HP Fink, M Sain Progress in polymer science 37 (11), 1552-1596, 2012 | 4654 | 2012 |
Sustainable bio-composites from renewable resources: opportunities and challenges in the green materials world AK Mohanty, M Misra, LT Drzal Journal of Polymers and the Environment 10, 19-26, 2002 | 2870 | 2002 |
Handbook of microalgal culture: biotechnology and applied phycology A Richmond Blackwell science, 2004 | 2181 | 2004 |
Biodegradable composites based on lignocellulosic fibers—An overview KG Satyanarayana, GGC Arizaga, F Wypych Progress in polymer science 34 (9), 982-1021, 2009 | 1680 | 2009 |
A review of the recent developments in biocomposites based on natural fibres and their application perspectives T Gurunathan, S Mohanty, SK Nayak Composites Part A: Applied Science and Manufacturing 77, 1-25, 2015 | 1305 | 2015 |
Transfer of two Burkholderia and an Alcaligenes species to Ralstonia gen. nov.: proposal of Ralstonia pickettii (Ralston, Palleroni and Doudoroff 1973) comb. nov., Ralstonia … E Yabuuchi, Y Kosako, I Yano, H Hotta, Y Nishiuchi Microbiology and immunology 39 (11), 897-904, 1995 | 1015 | 1995 |
Food emulsions S Friberg, K Larsson, J Sjoblom CRC Press, 2003 | 704 | 2003 |
Bacteria in biology, biotechnology and medicine. P Singleton Bacteria in biology, biotechnology and medicine., 2004 | 661 | 2004 |
Green composites: an overview E Zini, M Scandola Polymer composites 32 (12), 1905-1915, 2011 | 627 | 2011 |
Protein hydrolysis using proteases: An important tool for food biotechnology OL Tavano Journal of Molecular Catalysis B: Enzymatic 90, 1-11, 2013 | 616 | 2013 |
Sustainability of bio-based plastics: general comparative analysis and recommendations for improvement CR Álvarez-Chávez, S Edwards, R Moure-Eraso, K Geiser Journal of cleaner production 23 (1), 47-56, 2012 | 586 | 2012 |
PLA based biopolymer reinforced with natural fibre: a review T Mukherjee, N Kao Journal of Polymers and the Environment 19, 714-725, 2011 | 428 | 2011 |
Microencapsulation in food science and biotechnology F Nazzaro, P Orlando, F Fratianni, R Coppola Current opinion in biotechnology 23 (2), 182-186, 2012 | 378 | 2012 |
Renewable fibers and bio-based materials for packaging applications–a review of recent developments C Johansson, J Bras, I Mondragon, P Nechita, D Plackett, P Simon, ... BioResources 7 (2), 2506-2552, 2012 | 362 | 2012 |
Genes, trade, and regulation: The seeds of conflict in food biotechnology T Bernauer Princeton University Press, 2003 | 331 | 2003 |
Food biotechnology in ethical perspective PB Thompson, M Kassem, WG Werner Springer, 2007 | 322 | 2007 |
Prebiotic potential of oligosaccharides: A focus on xylan derived oligosaccharides RD Singh, J Banerjee, A Arora Bioactive Carbohydrates and Dietary Fibre 5 (1), 19-30, 2015 | 209 | 2015 |
Heat and pH stability of prebiotic arabinoxylooligosaccharides, xylooligosaccharides and fructooligosaccharides CM Courtin, K Swennen, P Verjans, JA Delcour Food chemistry 112 (4), 831-837, 2009 | 195 | 2009 |
Production of renewable polymers from crop plants JB Van Beilen, Y Poirier The Plant Journal 54 (4), 684-701, 2008 | 192 | 2008 |
Environmentally degradable bio‐based polymeric blends and composites E Chiellini, P Cinelli, F Chiellini, SH Imam Macromolecular bioscience 4 (3), 218-231, 2004 | 192 | 2004 |