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Polymer Reviews Volume 53, 2013 - Issue 4
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REVIEWS

Hydrophobic Polymers from Food Waste: Resources and Synthesis

S. A. Sanchez-Vazquez Department of Chemistry, University College London, London, England, UK
,
H. C. Hailes Department of Chemistry, University College London, London, England, UK
&
J. R. G. Evans Department of Chemistry, University College London, London, England, UK
Pages 627-694 | Received 16 Jan 2013, Accepted 30 Jul 2013, Published online: 27 Sep 2013

References

  • Berner , R. A. , Petcsch , S. T. , Lake , J. A. , Beerling , D. J. , Popp , B. N. , Laws , E. A. , Westley , N. , Cassar , M. B. , Woodward , F. I. and Quick , W. P. 2000 . Isotope fractionation and atmospheric oxygen: implications for phanerozoic O2 evolution . Science , 287 : 1630 – 1633 .
  • Berner , R. A. 1998 . The carbon cycle and CO2 over phanerozoic time: the role of land plants . Phil. Trans. Roy. Soc. Lond. , B-353 : 75 – 82 .
  • Smil , V. Oil . 2008 . Oneworld 159 – 188 . Oxford Ch. 5
  • Pollastro , R. M. , Cook , T. A. , Roberts , L. N.R. , Schenk , C. J. , Lewan , M. D. , Anna , L. O. , Gaswirth , S. B. , Lillis , P. G. , Klett , T. R. and Charpentier , R. R. 2008 . Assessment of undiscovered oil resources in the Devonian-Mississippian Bakken Formation, Williston Basin Province, Montana and North Dakota . : 2008 – 3021 . U.S. Geological Survey Fact Sheet
  • Smil , V. 2008 . Energy in Nature and Society , 212 – 217 . Boston , MA : MIT Press .
  • Aguilera , R. F. and Ripple , R. D. 2012 . Technological progress and the availability of European oil and gas resources . Applied Energy. , 96 : 387 – 392 .
  • Liu , Z. Y. , Shi , S. D. and Li , Y. W. 2010 . Coal liquefaction technologies-development in China and challenges in chemical reaction engineering . Chem. Eng. Sci. , 65 : 12 – 17 .
  • Boswell , R. and Collett , T. S. 2011 . Current perspectives on gas hydrate resources . Energy & Environ. Sci. , 4 : 1206 – 1215 .
  • Mejean , A. and Hope , C. 2008 . Modelling the costs of non-conventional oil: A case study of Canadian bitumen . Energy Policy. , 36 : 4205 – 4216 .
  • Hearps , P. and McConnell , D. March 2011 . Renewable energy technology cost review . Melbourne Energy Institute Technical Paper Series
  • IEA, International Energy Agency . Monthly oil market reports . January 1987- January 2013. http://omrpublic.iea.org/ (last accessed April 23, 2013)
  • Winstone , R. , Boulton , P. and Gore , D. May 2007 . Energy security, House of Commons Research Paper 07/42 . : 1 – 38 . House of Commons Library
  • Anon . 2010 . Oil and gas security: emergency response of IEA countries: Uninted Kingdom . : 1 – 10 . International Energy Agency, Paris
  • Isaksen , I. S.A. , Gauss , M. , Myhre , G. , Anthony , K. M.W. and Ruppel , C. 2010 . Strong atmospheric chemistry feedback to climate warming from Arctic methane emissions . Global Biogeochemical Cycles. , 25 Art. No. GB2002
  • Scambos , T. 2011 . Earth's ice: Sea level, climate, and our future commitment . Bull. Atomic Sci. , 67 : 28 – 40 .
  • Bekryaev , R. V. , Polyakov , I. V. and Alexeev , V. A. 2010 . Role of polar amplification in long-term surface air temperature variations and modern arctic warming . J. Climate. , 23 : 3888 – 3906 .
  • Costello , A. 2009 . Managing the health effects of climate change . The Lancet. , 373 : 1693 – 1733 . 29 others
  • Sullivan, G.R. and 10 others . 2007 . National security and the threat of climate change, Report of military advisory board . : 1 – 63 . CNA Corporation, Alexandria, Virginia
  • Williams , C. K. and Hillmyer , M. A. 2008 . Polymers from renewable resources: A perspective for a special issue of polymer reviews . Polymer Reviews. , 48 : 1 – 10 .
  • Bledzki , A. K. and Gassan , J. 1999 . Composites reinforced with cellulose based fibers . Prog. Polym. Sci. , 24 : 221 – 274 .
  • Zuhri , M. Y.M. , Sapuan , S. M. and Ismail , N. 2009 . Oil palm fiber reinforced polymer composites: A review . Prog. Rubb. Plast. Recycling Tech. , 25 : 233 – 246 .
  • Summerscales , J. , Dissanayake , N. P.J. , Virk , A. S. and Hall , W. 2010 . A review of bast fibers and their composites. Part 1-Fibers as reinforcements . Composites Part A-Applied Science and Manufacturing , 41 : 1329 – 1335 .
  • Summerscales , J. , Dissanayake , N. P.J. , Virk , A. S. and Hall , W. 2010 . A review of bast fibers and their composites. Part 2-Composites . Composites Part A-Applied Science and Manufacturing. , 41 : 1336 – 1344 .
  • Rouilly , A. and Rigal , L. 2002 . Agro-materials: A bibliographic review, Polymer Reviews . Journal of Macromolecular Science. Part C - Polymer Reviews , C42 : 441 – 479 .
  • Mooney , B. P. 2009 . The second green revolution? Production of plant-based biodegradable plastics . Biochem. J. , 418 : 219 – 232 .
  • Jain , J. P. , Sokosky , M. , Kumar , N. and Domb , A. J. 2008 . Fatty acid based biodegradable polymer . Polymer Reviews. , 48 : 156 – 191 .
  • Tong , X. , Ma , Y. and Li , Y. 2010 . Biomass into chemicals: Conversion of sugars to furan derivatives by catalytic processes . Applied Catalysis A:General , 385 : 1 – 13 .
  • Ford , H. 1940 . Automotive body construction . US Patent No 2269451
  • Firbank , L. G. 2008 . Assessing the ecological impacts of bioenergy projects . Bioenergy. Res. , 1 : 12 – 19 .
  • Prins , A. G. , Eickhout , B. , Banse , M. , Van-Meijl , H. , Rienks , W. and Woltjer , G. 2011 . Global impacts of European agricultural and biofuel policies . Ecology and Society. , 16 Art. No. 49
  • Patzek , T. W. 2008 . Can the Earth Deliver the Biomass-For-Fuel we Demand? Biofuels, Solar and Wind as Renewable Energy Systems , Edited by: Pimental , D. 19 – 55 . Springer .
  • IBIB.2012-13 . 2012 . International Business Directory for Innovative Bio-Based Plastics and Composites Nova-Institute GmbH Huerth, Ger. & Bioplastics Magazine
  • Endres , H. J. and Siebert-Raths , A. 2011 . Engineering Biopolymers: Market, Manufacturing, Properties and Applications , Hanser Publications .
  • Michael , C. and Michael , T. 2012 . International Business Directory for Innovative Bio-Based Plastics and Composites , Nova-Institute GmbH, Bioplastics Magazine .
  • Chandra , R. and Rustgi , R. 1998 . Biodegradable polymers . Prog. Polym. Sci. , 23 : 1273 – 1335 .
  • Morschbacker , A. 2009 . Bio-ethanol based ethylene . Polymer Reviews. , 49 : 79 – 84 .
  • Nyambo , C. , Mohanty , A. K. and Misra , M. 2010 . Polylactide-based renewable green composites from agricultural residues and their hybrids . Biomacromolecules , 11 : 1645 – 1660 .
  • Firn , R. D. and Jones , C. G. 2009 . A Darwinian view of metabolism: Molecular properties determine fitness . J. Expt. Botany. , 60 : 719 – 726 .
  • Gustavsson , J. , Cederberg , C. , Sonesson , U. , Van Otterdijk , R. and Meybeck , A. 2011 . Global food losses and food waste: Extent, causes and prevention . Food and Agriculture Organization of the United Nations (FAO), Rome
  • Akinfemi , A. Bioconversion of peanut husk with white rot fungi: Pleurotus ostreatus and Pleurotus pulmonarius . Livestock Research for Rural Development. http://www.lrrd.org/lrrd22/3/akin22049.htm (last accessed April 23, 2013)
  • Furst-McNess company . Commodity nutrient profile, potato processing waste, use and application . http://www.mcness.com/sites/default/files/file_attach/PotatoWasteUSE03.pdf (last accessed April 23, 2013)
  • Karim , M. S. , Percival , G. C. and Dixon , G. R. 1997 . Comparative composition of aerial and subterranean potato tubers . J. Sci. Food. Agric. , 75 : 251 – 257 .
  • Kittiphoom , S. 2012 . Utilization of mango seed . Int. Food Res. J. , 19 : 1325 – 1335 .
  • Templeton , D. W. , Scarlata , C. J. , Sluiter , J. B. and Wolfrum , E. J. 2010 . Compositional analysis of lignocellulosic feedstocks. 2. Method uncertainties . J. Agric. Food Chem. , 58 : 9054 – 9062 .
  • Sinclair , W. B. 1972 . The Grapefruit: Its Composition, Physiology and Products , 514 ANR Publications: Division of Agricultural Sciences, University of California .
  • Oluremi , O. I.A. , Andrew , I. A. and Ngi , J. 2007 . Evaluation of the nutritive potential of the peels of some citrus fruit varieties as feedingstuffs in livestock production . Pakistan J. Nutrition , 6 : 653 – 656 .
  • Marín , F. R. , Soler-Rivas , C. , Benavente-García , O. , Castillo , J. and Pérez-Alvarez , J. A. 2007 . By-products from different citrus processes as a source of customized functional fibers . Food Chemistry. , 100 : 736 – 741 .
  • Palmquist , D. L. and Jenkins , T. C. 2003 . Challenges with fats and fatty acid methods . J. Animal Science. , 81 : 3250 – 3254 .
  • Berghe , E. V. and Dhont , J. Laboratory of Aquaculture & Artemia Reference Centre . Analytical techniques in aquaculture research. Proximate analysis: Nitrogen Free Extract (NFE).http://www.aquaculture.ugent.be/Education/coursematerial/online%20courses/ATA/analysis/NFE.htm (last accessed April 23, 2013)
  • Pandey , A. , Soccol , C. R. , Nigam , P. , Brand , D. , Mohan , R. and Roussos , S. 2000 . Biotechnological potential of coffee pulp and coffee husk for bioprocesses . Biochem. Eng. J. , 6 : 153 – 162 .
  • Production., Food and Agriculture Organization of the United Nations (FAOSTAT) and United State Department of Agriculture (USDA) . in the Foreign Agricultural Service . http://faostat.fao.org. (last accessed April 23, 2013)
  • Ishizaki , Y. , Kondo , M. , Kamal , M. U. , Isowa , Y. , Matsui , H. and Karita , S. 2013 . Fermentation characteristics, nutrient composition and in vitro ruminal degradability of whole crop wheat and wheat straw silage cultivated at dried paddy field . J. Food, Agriculture & Environment. , 11 : 664 – 668 .
  • Essien , J. P. , Akpan , E. J. and Essien , E. P. 2005 . Studies on mold growth and biomass production using waste banana peel . Bioresource Technology. , 96 : 1451 – 1456 .
  • Hongzhang , C. , Hongqiang , L. and Liying , L. 2011 . The inhomogeneity of corn stover and its effects on bioconversion . Biomass and Bioenergy. , 35 : 1940 – 1945 .
  • Chau , C. F. , Chen , C. H. and Lee , M. H. 2004 . Comparison ofthe characteristics, functional properties, and in vitro hypoglycemic effects of various carrot insoluble fiber-rich fractions . Swiss Society of Food Science and Technology. , 37 : 155 – 160 .
  • Chantaro , P. , Devahastin , S. and Chiewchan , N. 2008 . Production of antioxidant high dietary fiber powder from carrot peels . Food Sci. Tech. , 41 : 1987 – 1994 .
  • Pereiae , G. I.S. , Pereira , R. G.F.A. , Barcelos , M. F.P. and Morais , A. R. 2003 . Carrot leaf, chemical evaluation aiming its use in human feeding . Ciênc. Agrotec, Lavras. , 27 : 852 – 857 .
  • Fox , T. 2013 . Global Food Waste Not, Want Not , 2 – 31 . London : Institute of Mechanical Engineers .
  • FAOSTAT. Food and Agriculture Organization of the United Nations . 2008 . International year of the potato . http://www.potato2008.org/en/ (last accessed April 23, 2013)
  • Friedman , M. 1997 . Chemistry, biochemistry and dietary role of potato polyphenols. A review . J. Agric. Food Chem. , 45 : 1523 – 1540 .
  • Greenbiz news. Potato Power for Homes, Factories on McD”s New Best Practices List . http://www.greenbiz.com/news/2010/05/04/potato-power-homes-factories-on-mcdonalds-new-best-practices-list (last accessed April 23, 2013)
  • Thirty thousand tonnes of potato waste converted into renewable energy. http://www.freshplaza.com/news_detail.asp?id=54469 (last accessed April 23, 2013.)
  • Bilanovic , D. D. , Malloy , S. H. and Remeta , P. Solid or semi-solid state fermentation of xanthan on potato or potato waste . Assgn: Bemidji State University Foundation. June 2010, US Patent Number: 07727747
  • Bemidh State University, Minnesota Public Radio . 2006 . Horizons . 6 : 6 – 8 . Summer/Fall.
  • Mackean , D. G. and Mackean , I. Biology teaching resources. Plants: flower structure . http://www.biology-resources.com/plants-flowers.html (last accessed April 23, 2013)
  • Liao , W. J. , Heijungs , R. and Huppes , G. 2011 . Is bioethanol a sustainable energy source? An energy-, exergy-, and emergy-based thermodynamic system analysis . Renewable Energy. , 36 : 3479 – 3487 .
  • Agbogbo , F , Haagensen , F. and Wenger , K. 2008 . Fermentation of acid pretreated corn stover to ethanol using Pichia stipitis . Applied Biochemistry & Biotechnology , 145 : 53 – 58 .
  • Zambare , V. P. , Bhalla , A. , Muthukumarappan , K. , Sani , R. K. and Christopher , L. P. 2011 . Bioprocessing of agricultural residues to ethanol utilizing a cellulolytic extremophile . Extremophles. , 15 : 611 – 618 .
  • Ryu , S. and Karim , M. N. 2011 . A whole cell biocatalyst for cellulosic ethanol production from dilute acid-pretreated corn stover hydrolyzates . Appl. Microbiol. Biotechnol. , 91 : 529 – 542 .
  • Dale , S. K. and Bruce , E. 2005 . Life cycle assessment study of biopolymers (polyhydroxyalkanoates) derived from no-tilled corn . Int. J. Life Cycle Assess. , 10 : 200 – 210 .
  • Fei , Y. , Yuhuan , L. , Xuejun , P. and Xiangyang , L. 2006 . Liquefaction of corn stover and preparation of polyester from the liquefied polyol . Appl. Biochem. Biotechnol. , 129 : 564 – 585 .
  • Tipeng , W. , Lianhui , Z. , Dong , L. , Jun , Y. , Sha , W. and Zhihuai , M. 2008 . Mechanical properties of polyurethane foams prepared from liquefied corn stover with PAPI . Bioresource Technol. , 99 : 2265 – 2268 .
  • Solis-Fuentes , J. A. and Durán-de-Bazua , M. C. 2004 . Mango seed uses: thermal behavior of mango seed almond fat and its mixtures with cocoa butter . Bioresource Technol. , 92 : 71 – 78 .
  • Nilani , P. , Raveesha , P. , Kasthuribai , N. R.N. , Duraisamy , B. , Dhamodaran , P. and Elango , K. 2010 . Formulation and evaluation of polysaccharide based biopolymer: An ecofriendly alternative for synthetic polymer . J. Pharma. Sci. Res. , 2 : 178 – 184 .
  • Hosni , K. , Zahed , N. , Chrif , R. , Abid , I. , Medfei , W. , Kalle , M. , Brahim , N. B. and Sebei , H. 2010 . Composition of peel essential oils from four selected tunisian citrus species: evidence for the genotypic influence . Food Chemistry. , 123 : 1098 – 1104 .
  • Marin , F. R. , Soler-Rivas , C. , Benavente-Garcia , O. , Castillo , J. and Perez-Alvarez , J. A. 2007 . By-products from different citrus processes as a source of customized functional fibers . Food Chemistry. , 100 : 736 – 741 .
  • Ladaniya , M. S. 2008 . Citrus Fruit: Biology, Technology and Evaluation , 170 – 180 . NY : Academic Press .
  • Mamma , D. , Kourtoglou , E. and Christakopoulos , P. 2008 . Fungal multienzyme production on industrial by-products of the citrus-processing industry . Bioresource Technol. , 99 : 2373 – 2383 .
  • Chowdhury , S. D. , Hassin , B. M. and Das , S. C. 2008 . Evaluation of marigold flower and orange skin as source of xanthophyll ogment for the improvement of egg yolk color . J. Poultry Sci. , 45 : 265 – 272 .
  • Boluda-Aguilar , M. , García-Vidal , L. , González-Castañeda , F. P. and López-Gómez , A. 2010 . Mandarin peel wastes pretreatment with steam explosion for bioethanol production . Bioresource Technol. , 101 : 3506 – 3513 .
  • Cho , C. W. , Lee , D. Y. and Kim , C. W. 2003 . Concentration and purification of soluble pectin from mandarin peels using crossflow microfiltration system . Carbohydrate Polymers. , 54 : 21 – 26 .
  • Organisation Internationale de la Vigne et du Vin (OIV) . World Vitivinicultural Statistics 2007, Structure of the World Vitinicultural Industry in 2007
  • Wine Institute. World Wine Production by Country . 2010 . http://www.wineinstitute.org/resources/worldstatistics/article87 (last accessed April 23, 2013)
  • Private comment from Robert Tinlot, ex-president and honorary general manager and director of the “Office International de la Vigne et du Vin” (OIV), president of the the Amorim Academy and present honorary head of Chateau Changyu AFIP Global
  • Arvanitoyannis , I. S. , Ladas , D. and Mavromatis , A. 2006 . Potential uses and applications of treated wine waste: A review . Int. J. Food Sci. & Technol. , 41 : 475 – 487 .
  • Musee , N. , Lorenzen , L. and Aldrich , C. 2007 . Cellar waste minimization in the wine industry: a systems approach . J. Cleaner Production. , 15 : 417 – 431 .
  • Fernández , C. M. , Ramos , M. J. , Perez , A. and Rodríguez , J. F. 2010 . Production of biodiesel from winery waste: Extraction, refining and transesterification of grapes seed oil . Bioresource Technol. , 101 : 7019 – 7024 .
  • Luque-Rodríguez , J. M. , Luque de Castro , M. D. and Pérez-Juan , P. 2007 . Dynamic superheated liquid extraction of anthocyanins and other phenolics from red grape skins of winemaking residues . Bioresource Technol. , 98 : 2705 – 2713 .
  • Szterk , A. , Roszko , M. , Sosinska , E. , Derewiaka , D. and Lewicki , P. P. 2010 . Chemical composition and oxidative stability of selected plant oils . J. Am. Oil Chem. Soc. , 87 : 637 – 645 .
  • Australian Cane Farmers Association. Sugar Milling . http://www.acfa.com.au./ (last accessed April 23, 2013)
  • Almazan , O. , Gonzalez , L. and Galvez , L. 1998 . The sugar cane, its by-products and co-products; Asociacion de tecnicos azucareros de cuba . Food and Agricultural Research Council, Mauritius , : xiii – xxv .
  • Cardona , C. A. , Quintero , J. A. and Paz , I. C. 2010 . Production of bioethanol from sugarcane bagasse: Status and perspectives . Bioresource Technol. , 101 : 4754 – 4766 .
  • Demirbas , A. 2005 . Bioethanol from cellulosic materials: A renewable motor fuel from biomass . Energy Sources. , 27 : 327 – 337 .
  • International Coffee Organization . Methods for coffee extraction . http://www.ico.org/field_processing.asp (last accessed April 23, 2013)
  • Rojas , J. B.U. , Verreth , J. A.J. , Van-Weerd , J. H. and Huisman , E. A. 2002 . Effect of different chemical treatments on nutritional and antinutritional properties of coffee pulp . Animal Feed Sci. & Technol. , 99 : 195 – 204 .
  • Bekalo , S. A. and Reinhardt , H. W. 2010 . Fibers of coffee husk and hulls for the production of particleboard . Materials and Structures. , 43 : 1049 – 1060 .
  • Espíndola-Gonzalez , A. and Martínez-Hernández , A. L. 2010 . Novel crystalline SiO2 nanoparticles via annelids bioprocessing of agro-industrial wastes . Nanoscale Res Lett. , 5 : 1408 – 1417 .
  • Agri-Food Business Development Center via Nation Master . Agriculture Statics. Banana production by country 2000. http://www.nationmaster.com/graph/agr_ban_pro-agriculture-banana-production (last accessed April 23, 2013)
  • Mohapatra , D. , Mishra , S. and Sutar , N. 2010 . Banana and its by-products utilisation: An overview . J. Sci. & Indust. Res. , 69 : 323 – 329 .
  • Emaga , T. H. , Robert , C. , Ronkart , S. N. , Wathelet , B. and Paquot , M. 2008 . Dietary fiber components and pectin chemical features of peels during ripening in banana and plantain varieties . Bioresource Technol. , 99 : 4346 – 4354 .
  • Bardiya , N. , Somayaji , D. and Khanna , S. 1996 . Biomethanation of banana peel and pineapple waste . Bioresource Technol. , 58 : 73 – 76 .
  • Joshi , S. , Bhopeshwarkar , R. , Jadhav , U. , Jadhav , R. , D’Souza , L. and Dixit , J. 2001 . Continuous ethanol production by fermentation of waste banana peels using flocculating yeast . Indian J. Chem. Technol. , 8 : 153 – 156 .
  • Annadurai , G. , Juang , R. S. and Lee , D. J. 2002 . Adsorption of heavy metals from water using banana and orange peels . Water Sci. & Technol. , 47 : 185 – 190 .
  • Lopez , V. M.G. 1998 . Characterization of avocado (Persea americana Mill.) Varieties of very low oil content . J. Agric. Food Chem. , 46 : 3643 – 3647 .
  • Pushkar , S. B. , Narain , N. , Rocha , R. V.M. and Paulo , M. Q. 2001 . Characterization of the oils from the pulp and seeds of avocado (cultivar: Fuerte) fruits . Grasas y Aceites. , 52 : 171 – 174 .
  • Rodriguez-Carpena , J. G. , Morcuende , D. , Andrade , M. J. , Kylli , P. and Estevez , M. 2011 . Avocado (Persea americana Mill.) phenolics, in vitro antioxidant and antimicrobial activities, and inhibition of lipid and protein oxidation in porcine patties . J. Agricultural and Food Chem. , 59 : 5625 – 5635 .
  • Mueller , R. , Seidel , K. , Hollenberg , A. and Matzik , I. 2000 . Skin and hair aerosol foam preparations containing an alkyl polyglycoside and vegetable oil . : 1233 Official Gazette of the United States Patent and Trademark Office Patents
  • Rosenblat , G. , Werman , M. J. , Yudicky , E. , Itzhak , O. and Neeman , I. 1995 . Hepatic collagen solubility in growing rats following oral administration of a lysyl oxidase inhibitor from avocado seed oil . Med. Sci. Res. , 23 : 813 – 814 .
  • Werman , M. J. , Mokady , S. , Nimni , M. E. and Neeman , I. 1991 . The effect of various avocado oils on skin collagen-metabolism . Connective Tissue Research. , 26 : 1 – 10 .
  • Werman , M. J. , Neeman , I. and Mokady , S. 1991 . Avocado oils and hepatic lipid-metabolism in growing rats . Food and Chem. Toxicol. , 29 : 93 – 99 .
  • Chen , B. H. and Tang , Y. C. 1998 . Processing and stability of carotenoid powder from carrot pulp waste . J. Agric. Food Chem. , 46 : 2312 – 2318 .
  • Liessens , B. , Grootaerd , H. and Verstraete , W. 1997 . Utilization of carrot pulp/pomace as alternative RACOD-source enhancing granulation and sludge bed stability in UASB reactors . Eleventh Forum for Applied Biotechnology, Faculty of Agricultural and Applied Biological Sciences. , 62 : 1553 – 1555 .
  • Garg , N. and Hang , Y. D. 1995 . Microbal-production of organic-acids from carrot processing waste . J. of Food Sci. & Technol. , 32 : 119 – 121 .
  • Yoon , K. Y. , Cha , M. , Shin , S. R. and Kim , K. S. 2005 . Enzymatic production of a soluble-fiber hydrolyzate from carrot pomace and its sugar composition . Food Chemistry. , 92 : 151 – 157 .
  • Bhatti , H. N. , Nasir , A. W. and Hanif , M. A. 2010 . Efficacy of Daucus carota L. waste biomass for the removal of chromium from aqueous soluions . Desalination , 253 : 78 – 87 .
  • Jamshidian , M. , Tehrany , E. A. , Imran , M. , Jacquot , M. and Desobry , S. 2010 . Poly-lactic acid: Production, applications, aanocomposites, and release studies . Comp. Revs. Food Sci. & Food Safety. , 9 : 552 – 571 .
  • Nepote , V. , Grosso , N. R. and Guzman , C. A. 2002 . Extraction of antioxidant components from peanut skins . Grasas y Aceites. , 53 : 391 – 395 .
  • Woodroof , J. G. 1983 . Peanuts. Production, Processing, Products , 141 Western Connecticut : AVI Publishing .
  • Yeboah , Y. D. , Bota , K. B. and Wang , Z. Hydrogen from biomass for urban transportation. hydrogen, fuel cells and infrastructure technologies . Berkeley , CA . Program Review Meeting , pp. 18 – 22 .
  • NPRL National Peanuy Research Laboratory, USDA United States Department of Agriculture . Peanuts-Other uses . http://www.ars.usda.gov/Main/site_main.htm?modecode=66-04-00-00 (last accessed April 23, 2013)
  • Chang , E. Peanut shells, corn stalks: China's alternative to coal? CNN World . http://articles.cnn.com/2009-12-06/world/china.alternative.energy.coal_1_chinese-government-boilers-low-carbon?_s=PM:WORLD (last accessed April 23, 2013)
  • Evans , R. J. 2002 . Renewable hydrogen production by catalytic steam reforming of peanut shells pyrolysis products . 2 : 757 – 758 . Clark Atlanta University: Fuel Chemistry Division Preprints
  • Bieak , N. and George , B. R. 2003 . Utilization of peanut shell fibers in nonwoven erosion control materials . Int. Nonwoven J. , 12 : 60 – 65 .
  • Chamarthy , S. , Seo , C. W. and Marshall , W. E. 2001 . Adsorption of selected toxic metals by modified peanut shells . J. Chem. Technol. & Biotechnol. , 76 : 593 – 597 .
  • Asubiojoa , O. I. and Ajelabia , O. B. 2009 . Removal of heavy metals from industrial wastewaters using natural adsorbent . Toxic. & Environ. Chem. , 91 : 883 – 890 .
  • ScienceDaily. Peanut Husks Could Be Used Clean Up Waste Water . http://www.sciencedaily.com/releases/2007/11/071108080114.htm (last accessed April 23, 2013)
  • Bauder , J. Cereal crop residues and plant nutrients . Montana State University Communications Services. http://www.montana.edu/cpa/news/wwwpb-archives/ag/baudr230.html (last accessed April 23, 2013)
  • Deswarte , F. E.I. , Clark , J. H. , Hardya , J. J.E. and Rose , P. M. 2005 . The fractionation of valuable wax products from wheat straw using CO2 . Green Chemistry , 8 : 39 – 42 .
  • Sleaford renewable energy plant. The Sleaford project technology . http://www.sleafordrep.co.uk/?page_id=10. (last accessed April 23, 2013)
  • Mantanis , G. and Berns , J. Strawboards bonded with urea-formaldehyde resins . Presentation made at the 35th International Particleboard/Composite Material Symposium, WSU, Pullman, WA ,
  • Daizhong , S. , Quingbin , Z. and Shifan , Z. 2009 . Technical parameters of rice-straw board with fire-retardant of wood . Key Eng. Mat. , 419–420 : 549 – 552 .
  • King , B. 2006 . Design of Straw Bale Buildings; , San Rafael , CA : Green Building Press .
  • 2011 . Department for environment food and rural affairs, Controls on animal by-product. Guidance on Regulation (EC) 1069/2009 and accompanying implementing regulation (EC) 142/2011, enforced in England by the animal by-products (Enforcement) (England) Regulations . : 1 – 26 .
  • Verheijen , L. A.H.M. , Wiersema , D. and Pol , L. W.H. Food and Agriculture Organization of the United Nations. Management of waste from animal product processing . http://www.fao.org/WAIRDOCS/LEAD/X6114E/x6114e00.htm#Contents. (last accessed April 23, 2013)
  • United States Department of Agriculture, Office of Global Analysis . 2012 . : 1 – 25 . Livestock and Poultry: World Markets and Trade. Foreign Agricultural Service
  • Feddern , V. , Cunha , A. Jr. , Pra , M. C. , Abreu , P. G. , Filho , J. I.S. , Higarashi , M. M. , Sulenta , M. and Coldebella , A. 2011 . “ Animal Fat Wastes for Biodiesel Production ” . In Biodiesel - Feedstocks and Processing Technologies , Edited by: Montero , G. and Stoytcheva , M. 45 – 70 . InTech . Rijeka, Croatia
  • Jin , E. , Reddy , N. , Zhu , Z. and Yang , Y. 2011 . Graft polymerization of native chicken feathers for thermoplastic applications . J. Agric. Food Chem. , 59 : 1729 – 1738 .
  • Mazik , K. , Burdon , D. and Elliott , M. 2005 . Seafood-Waste Disposal at Sea: A Scientific Review , 13 – 14 . Hull, U.K. : Institute of Estuarine and Coastal Studies .
  • Thirunavukkarasu , N. , Dhinamala , K. and Inbaraj , R. M. 2011 . Production of chitin from two marine stomatopods Oratosquilla spp. (Crustacea) . J. Chem. Pharm. Res. , 3 : 353 – 359 .
  • Beilen , J. B.V. and Poirier , Y. 2008 . Production of renewable polymers from crop plants . Plant Journal. , 54 : 684 – 701 .
  • Ramesg , H. P. and Tharanathan , R. N. 2003 . Carbohydrates-The renewable raw materials of high biotechnological value . Critical Revs. in Biotechnol. , 23 : 149 – 173 .
  • Cunha , A. G. and Gandini , A. 2010 . Turning polysaccharides into hydrophobic materials: A critical review . Cellulose. , 17 : 875 – 889 .
  • Gandini , A. 2008 . Perspective, polymers from renewable respurces: A challenge for the future of macromolecular materials . Macromolecules. , 41 : 9491 – 9504 .
  • Tester , R. F. , Karkalas , J. and Qi , X. 2004 . Starch-composition, fine structure and architecture . J. Cereal Sci. , 39 : 151 – 165 .
  • Buleon , A. , Colonna , P. , Planchot , V. and Ball , S. 1998 . Starch granules: Structure and biosynthesis . Int. J. Biol. Macromol. , 23 : 85 – 112 .
  • Singh , N. , Singh , J. , Kaur , L. , Sodhi , N. S. and Gill , B. S. 2003 . Morphological, thermal and rheological properties of starches frok different botanical sources . Food Chemistry , 81 : 219 – 231 .
  • Fredriksson , H. , Silverio , J. , Andersson , R. , Eliasson , A. C. and Aman , P. 1998 . The influence of amylose and amylopectin characrteristics on gelatinization and retrogradation properties of different starches . Carbohydrate Polymers , 35 : 119 – 134 .
  • Vroman , I. and Tighzert , L. 2009 . Biodegradable polymers . Materials. , 2 : 307 – 344 .
  • Angellier-Coussy , H. , Putaux , J. L. , Molina-Boisseau , S. , Dufresne , A. , Bertoft , E. and Perez , S. 2009 . The molecular structure of waxy maize starch nanocrystals . Carbohydrate Research. , 344 : 1558 – 1566 .
  • Hoover , R. 2010 . The impact of heat-moisture treatment on molecular structures and properties of starches isolated from different botanical sources . Critical Revs. in Food Sci. & Nutrition , 50 : 835 – 847 .
  • Rahmat , A. R. , Rahman , W. A.W.A. , Sin , L. T. and Yussuf , A. A. 2009 . Aproches to improve compatubility of starch filled polymer system: A review . Mat. Sci.& Eng. C. , 29 : 2370 – 2377 .
  • Averous , L. Biodegradable multiphase systems based on plasticized starch: A review . Journal of Macromolecular Science. Part C - Polymer Reviews. 2004 , C44 231 – 274 .
  • Tang , X. and Alavi , S. 2011 . Review. Recent advances in starch, polyvinyl alcohol based polymer blends, nanocomposites and their biodegradability . Carbohydrate Polymers. , 85 : 7 – 16 .
  • Paul , H. 2013 . Enzymatic Digestion of Polysaccharides. Part II: Optimization of Polymer Digestion and Glucose Production in Microplates , 1 – 5 . Winooski, Vermont : BioTek., Biofuel Res. .
  • Blazek , J. and Gilbert , E. P. 2010 . Effect of enzymatic hydrolysis on native starch granule structure . Biomacromolecules. , 11 : 3275 – 3289 .
  • Krassig , H. 1990 . Cellulose-morphology, structure, accessibility and reactivity . Papier. , 44 : 617 – 623 .
  • Bergue , L. E.R. and Pettersson , L. G. 1973 . The mechanism of enzymatic cellulose degradation, purification of a cellulolytic enzyme from Trichoderma viride active on highly ordered cellulose . Eur. J. Biochem. , 37 : 21 – 30 .
  • Garrain , D. , Vidal , R. , Franco , C. and Martinez , P. Global warming impact of biodegradable polymers and biocomposites upon disposal . 1st International Conference on Biodegradable Polymers and Sustainable Composites, Alicante, Spain , pp. 2 – 33 .
  • Hirano , S. , Tsuchida , H. and Nagao , N. 1989 . N-acetylation in chitosan and the rate of its enzymatic hydrolysis . Biomaterials. , 10 : 574 – 576 .
  • Franca , E. F. , Freitas , L. C.G. and Lins , R. D. 2011 . Chitosan molecular structure as a function of N-acetylation . Biopolymers. , 95 : 448 – 460 .
  • Pillai , C. K.S. , Paul , W. and Sharma , C. P. 2009 . Chitin and chitosan polymers: Chemistry, solubility, and fiber formation . Prog. Polym.Sci. , 34 : 641 – 678 .
  • Zohuriaan-Mehr , M. J. 2005 . Advances in chitin and chitosan modification through graft copolymerization: A comprehensive review . Iranian Polymer J. , 14 : 235 – 265 .
  • Jayakumara , R. , Selvamurugana , N. , Nair , S. V. , Tokurab , S. and Tamura , H. 2008 . Preparative methods of phosphorylated chitin and chitosan : An overview . Int. J. Biol. Macromol. , 43 : 221 – 225 .
  • Kurita , K. 2006 . Chitin and chitosan: Functional biopolymers from marine crustaceans . Marine Biotechnol. , 8 : 203 – 226 .
  • Souza , V. C. , Monte , M. L. and Pinto , L. A.A. 2011 . Preparation of biopolymer film from chitosan modified with lipid fraction . Int. J. Food & Technol. , 46 : 1856 – 1862 .
  • Hirano , S. 1999 . Chitin and chitosan as novel biotechnological materials . Polymer Int. , 48 : 732 – 734 .
  • Sashiwa , H. and Aiba , S. 2004 . Chemically modified chitin and chitosan as biomaterials . Prog.Polym. Sci. , 29 : 887 – 908 .
  • Aranaz , I. , Mengíbar , M. , Harris , R. , Paños , I. , Miralles , B. and Acosta , N. 2009 . Functional characterization of chitin and chitosan . Current Chemical Biology , 3 : 203 – 230 .
  • Prashanth , K. V.H. and Tharanathan , R. N. 2007 . Chitin/chitosan: modifications and their unlimited application potential: An overview . Trends in Food Sci. & Technol. , 18 : 117 – 131 .
  • Kumar , M. N.V.R. 2000 . A review of chitin and chitosan applications . Reactive & Functional Polymers. , 46 : 1 – 27 .
  • Khoushab , F. and Yamabhai , M. 2010 . Chitin research revisted . Marine Drugs. , 8 : 1988 – 2012 .
  • Ren , D. , Yi , H. , Wanga , W. and Ma , X. 2005 . The enzymatic degradation and swelling properties of chitosan matrices with different degrees of N-acetylation . Carbohydrate Research , 340 : 2403 – 2410 .
  • Boerjan , W. , Ralph , J. and Baucher , M. 2003 . Lignin biosynthesis . Annu. Rev. Plant Biol. , 54 : 519 – 546 .
  • Lebo , S. E. Jr. , Gargulak , J. D. and McNally , T. J. Lignin” Kirk-Othmer Encyclopedia of Chemical Technology , 15 1 – 32 . Malden, MA: Wiley, 2001
  • Gandini , A. and Belgacem , M. N. 2008 . Monomers, Polymers and Composites from Renewable Resources. Lignins as Components of Macromolecular Materials , 243 – 272 . Amsterdam : Elsevier . Ch. 11
  • Okuda , K. , Man , X. , Umetsu , M. , Takami , S. and Adschiri , T. 2004 . Efficient conversion of lignin into single chemical species by solvothermal reaction in water–p-cresol solvent . J. Phys.Condens. Matter. , 16 : S1325 – S1330 .
  • Kishimoto , T. , Uraki , Y. and Ubukata , M. 2006 . Chemical synthesis of b-O-4 type artificial lignin . Organic & Biomol. Chem. , 4 : 1343 – 1347 .
  • Jeffries , T. W. 1994 . “ Biodegradation of lignin and hemicelluloses ” . In Biochemistry of Microbial Degradation , Edited by: Ratledge , C. 233 – 277 . Hull , , U.K : Kluwer Academic Publisher .
  • Ko , J. J. , Shimizu , Y. , Ikeda , K. , Kim , S. K. , Park , C. H. and Matsui , S. 2009 . Biodegradation of high molecular weight lignin under sulfate reducing conditions: Lignin degradability and degradation by-products . Bioresource Technol. , 100 : 1622 – 1627 .
  • Crestini , C. , Melone , F. and Saladino , R. 2011 . Novel multienzyme oxidative biocatalyst for lignin bioprocessing . Bioorganic & Med. Chem. , 19 : 5071 – 5078 .
  • Andresen , C. , Demuth , C. , Lange , A. , Stoick , P. and Pruszko , R. 2012 . Biobased automobile parts investigation . A report developed for the USDA Office of energy policy and new uses; Iowa State University, Ames. IO
  • Raquez , J. M. , Veléglise , M. , Lacrampe , M. F. and Krawczak , P. 2010 . Thermosetting (bio)materials derived from renewable resources: A critical review . Progress in Polym. Sci. , 35 : 487 – 509 .
  • Martucci , J. F. , Ruseckaite , R. A. and Vazquez , A. 2006 . Creep of glutaraldehyse-crosslinked gelatin films . Mat. Sci. & Eng. A. , 435-436 : 681 – 686 .
  • Swain , S. N. , Biswal , S. M. , Nanda , P. K. and Nayak , P. L. 2004 . Biodegradable soy-based plastics: opportunities and challenges . J. Polym. & Environment. , 12 : 35 – 42 .
  • West , J. I. and Hubbell , J. A. 1999 . Polymeric biomaterials with degradation polymeric biomaterials with degradation . Macromolecules. , 32 : 241 – 244 .
  • Wik , R. M. 1992 . Henry Ford and Grass-roots America , 148 – 152 . Ann Arbor , MI : Univ. Michigan Press .
  • Scrimgeour , C. 2005 . Chemistry of fatty acids . Bailey's Industrial Oil and Fat Products. , 6 : 1 – 44 .
  • O”Brien , R. D. 2009 . Fats and Oils: Formulating and Processing for Applications , 212 Abingdon , , U.K. : Taylor & Francis .
  • Desroches , M. , Escouvois , M. , Auvergne , R. , Caillol , S. and Boutevin , B. 2010 . From vegetable oils to polyurethanes: synthetic routes to polyols and main industrial products . Polymer Reviews. , 52 : 38 – 79 .
  • Petrovic , Z. S. 2008 . Polyurethanes from vegetable oils . Polymer Reviews. , 48 : 109 – 155 .
  • Grau , R. J. , Zgolicz , P. D. , Gutierrez , C. and Taher , H. A. 1999 . Liquid phase hydrogenation, isomerization and dehydrogenation of limonene and derivatives with supported palladium catalyst . Journal of Molecular Catalysis A:Chemical. , 148 : 203 – 214 .
  • Weyrich , P. A. and Holderich , W. F. 1996 . Dehydrogenation of limonene over Ce promoted, zeolite supported Pd catalysts . J. Mol. Catal. A: General. , 158 : 145 – 162 .
  • Martin-Luego , M. A. , Yates , M. , Domingo , M. J.M. , Casal , B. , Iglesias , M. , Esteban , M. and Ruiz-Hitzky , E. 2008 . Synthesis of p-cymene from limonene, a renewable feedstock . J. Mol. Catal. B: Environmental. , 81 : 218 – 224 .
  • Neumann , R. and Liseel , M. 1989 . Aromatization of hydrocarbons by oxidative dehydrogenation catalyzed by the mixed addenda heteropoly acid H5PMo10V2040 . J.Org.Chem. , 54 : 4607 – 4610 .
  • Fernandes , C. , Catrinescu , C. , Castillo , P. , Russo , P. A. , Carrot , M. R. and Breen , C. 2007 . Catalytic conversion of limonene over acid activated Serra de Dentro (SD) bentonite . J. Mol. Catal. A: General. , 318 : 108 – 120 .
  • Bueno , A. C. , Brandao , B. B.N.S. and Gusevskaya , E. V. 2008 . Aromatization of para-menthenic terpenes by aerobic oxidative dehydrogenation catalyzed by p-benzoquinone . J. Mol. Catal. A: General. , 351 : 226 – 230 .
  • Nyquist , A. S. 1946 . Method of preparing polymeric materials from isopropenyl toluene . United State Patent Office, No. 2490372
  • Takeuchi , M. and Kuramoto , M. 1991 . Process for Producing Styrene-based polymer . US Patent, No. 5023304
  • Lenz , R. W. and Westfelt , L. C. 1976 . Cationic polymerization of p-substituted a-methylstyrenes. III Effect of polymerization conditions on tacticity and molecular weight for p-chloro-a-methylstyrene . J. Polym. Sci. , 14 : 2147 – 2153 .
  • Suzuki , M. , Miyama , H. and Fujimoto , S. 1958 . Preparation of crystalline polystyrenes by use of acid catalyst . J. Polym. Sci. , 31 : 215 – 217 .
  • Lenz , R. W. , Sutherland , J. E. and Westfelt , L. C. 1976 . Cationic polymerization of p-substituted α-methylstyrenes . Die Makromolekulare Chemie. , 177 : 653 – 662 .
  • Powers , P. O. 1946 . Copolymers of dimethylstyrene vinyl fatty esters with butadiene . Ind.& Eng. Chem. , 38 : 837 – 389 .
  • Seymour , R. B. , Harris , F. F. Jr. and Branum , I. Jr. 1949 . Copolymers of vinyl compounmds and maleic anhydride . Industrial and Engineering Chemistry. , 41 : 1509 – 1513 .
  • Luinstra , G. , Becker , F. , Muller , M. , Meckelnburg , D. and Assmann , J. 2010 . Copolymers of ρ-α-dimethylstyrene and thermoplastic compositions . US Patent, No. 0261831
  • Zeitsch , K. J. 2000 . The Chemistry and Technology of Furfural and its Many By-Products , 3 – 7 . Elsevier .
  • Lewkowski , J. 2001 . Synthesis, chemistry and applications of 5-hydroxymethylfurfural and its derivatives . Arkivoc. , 1 : 17 – 54 .
  • Tong , X. L. , Ma , Y. and Li , Y. D. 2010 . Biomass into chemicals: Conversion of sugars to furan derivatives by catalytic processes . Applied Catalysis A-General. , 385 : 1 – 13 .
  • Gandini , A. 2009 . Furans as offspring of sugars and polkysaccharides and progenitors of a family of remarkable polymers: A review of recent progrss . Polymer Chemistry. , 1 : 245 – 251 .
  • Averous , P. L. Bioplastics. Biodegradable polyesters. Biodegradable and biobased polymer, biopolymer, agro-polymer, bioplastic, biomaterial, compostable packaging . University of Strasbourg.http://www.biodeg.net/index.html (last accessed April 23, 2013)
  • Preethi , R. , Sasikala , P. and Aravind , J. 2012 . Microbial production of polyhydroxyalkanoate (PHA) utilizing fruit waste as a substrate . Research in Biotechnol. , 3 : 61 – 69 .
  • Marham , P. J. , Keller , A. and Wills , H. H. 1986 . The relationship between microstructure and mode of fracture in polyhydroxybutyrate . J. Polym. Sci. Polym. Phys. , 24 : 69 – 77 .
  • Noda , I. , Green , P. R. , Satkowski , M. M. and Schechtman , L. A. 2005 . Preparation and properties of a novel class of polyhydroxyalkanoate copolymers . Biomacromolecules. , 6 : 580 – 586 .
  • Kessler , B. and Witholt , B. 1999 . Perspective of medium chain lenght poly(hydroxyalcanoates), a versatileset of bacterialbioplastics . Curr. Opin. Biotechnol. , 3 : 279 – 285 .
  • Mochizuki , M. and Hirami , M. 1997 . Structural effects on the biodegradation of aliphatic polyesters . Polymers for Advance Technologies. , 8 : 203 – 209 .
  • Philip , S. , Keshavarz , T. and Roy , I. 2007 . Polyhydroxyalkanoates: Biodegradable polymers with a range of applications . J. Chem. Technol. Biotechnol. , 82 : 233 – 247 .
  • Barham , P. J. and Keller , A. 1986 . The relationship between microstructure and mode of fracture in polyhydroxybutyrate . J. Polym. Sci. Polym. Phys. Edition. , 24 : 69 – 77 .
  • Mohanty , A. K. , Misra , M. and Hinrichsen , G. 2000 . Biofibers, biodegradable polymers and biocomposites: An overview . Macro.Mater.Eng. , 276 : 1 – 24 .
  • Federle , T. W. , Barlaz , M. A. , Pettigrew , C. A. and Kerr , K. M. 2002 . Anaerobic biodegradation of aliphatic polyesters: poly(3-hydroxybutyrate-co-3-hydroxyoctanoate) and poly(E-caprolactone) . Biomacromolecules. , 3 : 813 – 822 .
  • Bernd , H. A.R. and Steinbüchel , A. 2008 . Polyhydroxyalkanoate (PHA) synthases: the key enzymes of PHA synthesis . Biopolymers Online. , : 173 – 180 .
  • Ohkouchi , Y. and Inoue , Y. 2006 . Direct production of L(+)-lactic acid from starch and food wastes using Lactobacillus manihotivorans LMG18011 . Bioresource Technology. , 97 : 1554 – 1562 .
  • John , R. P. and Nampoothiri , K. M. 2007 . Fermentative production of lactic acid from biomass: an overview on process developments and future perspectives . Appl Microbiol Biotechnol. , 74 : 524 – 534 .
  • Jamshidian , M. , Tehrany , E. A. , Imran , M. , Jacquot , M. and Desobry , S. 2010 . Poly-lactic acid: production, applications, nanocomposites, and release studies . Comp. Revs. in Food Sci. & Food Safety. , 9 : 552 – 571 .
  • Nampoothiri , K. M. , Nair , N. R. and John , R. P. 2010 . An overview of the recent developments in polylactide (PLA) research . Bioresource Technol. , 101 : 8493 – 8501 .
  • Zenkiewicz , M. , Richert , J. , Rytlewski , P. , Moraczewski , K. , Stepczynska , M. and Karasiewicz , T. 2009 . Characterisation of multi-extruded poly(lactic acid) . Polymer Testing. , 28 : 412 – 418 .
  • Geuss , M. 2007 . Enzymatic catalysis in the synthesis of new polymer architectures and materials . : 6 PhD Dissertation, Technische Universiteit Eindhoven
  • Kobayashi , S. , Uyama , H. and Kimura , S. 2001 . Enzymatic polymerization . Chemical Reviews. , 101 : 3793 – 3818 .
  • Oguchi , T. , Tawaki , S. , Uyama , H. and Kobayashi , S. 2000 . Enzymatic synthesis of soluble polyphenol . Bull. Chem. Soc. Jpn. , 73 : 1389 – 1396 .
  • Kim , Y. , Uyama , H. and Kobayashi , S. 2004 . Enzymatic template polymerization of phenol in the presence of water-soluble polymers in an aqueous medium . Polymer J. , 36 : 992 – 998 .
  • Uyama , H. , Kurioka , H. , Kaneko , I. and Kobayashi , S. 1994 . Synthesis of a new family of phenol resin by enzymatic oxidative polymerization . Chem. Lett. , 23 : 423 – 426 .
  • Uyama , H. , Kuiorka , H. , Sugihara , J. and Kobayashi , S. 1996 . Enzymatic synthesis and thermal properties of a new class of polyphenol . Bull. Chem. Soc. Jpn. , 69 : 189 – 193 .
  • Kobayashi , S. , Uyama , H. , Ushiwata , T. , Uchiyama , T. , Sugihara , J. and Kurioka , H . 1998 . Enzymatic oxidative polymerization of bisphenol-A to a new class of soluble polyphenol . Macromol. Chem. Phys. , 199 : 777 – 782 .
  • Tonami , H. , Uyama , H. , Kibayashi , S. and Kubota , M. 1999 . Peroxidase-catalyzed oxidative polymerization of m-substituted phenol derivatives . Macromol. Chem. Phys. , 200 : 2365 – 2371 .
  • Hay , A. S. 1998 . Polymerization by oxidative coupling: Discovery and commercialization of PPO and noryl resins . J. Polym. Sci. Part A: Polym. Chem. , 36 : 505 – 517 .
  • Arrieta-Baez , D. and Stark , R. E. 2006 . Modeling suberization with peroxidase-catalyzed polymerization of hydroxycinnamic acids: Cross-coupling and dimerization reactions . Phytochemistry. , 67 : 743 – 753 .
  • Xu , P. , Uyama , H. , Whitten , J. E. , Kobayashi , S. and Kaplan , D. L. 2005 . Peroxidase-catalyzed in situ polymerization of surface oroented caffeic acid . J.Am.Chem.Soc. , 127 : 11745 – 11753 .
  • Aktas , N. , Sahiner , N. , Kantogly , O. , Salih , B. and Tayolac , A. 2003 . Biosynthesis and characterization of laccase catalyzed poly(catechol) . J. Polym. & Environ. , 11 : 123 – 128 .
  • Aktas , N. and Tanyolac , A. 2003 . Kinetics of laccase-catalyzed oxidative polymerization of catechol . J. Mol. Catalysis B: Enzymatic. , 22 : 61 – 69 .
  • Kim , S. , Silva , C. , Evtuguin , D. V. , Gamelas , J. A.F. and Cavaco-Paulo , A. 2011 . Polyoxometalate/ laccase-mediated oxidative polymerization of catechol for textile dyeing . Appl. Microbiol. Biotechnol. , 89 : 981 – 987 .
  • Pierpoint , W. S. 1966 . The enzymic oxidation of chlorogenic acid and some reactions of the quinone produced . Biochem. J. , 98 : 567 – 580 .
  • Wu , Y. M. , Mao , X. , Wang , S. J. and Li , R. Z. 2004 . Improving the nutritional value of plant foods thorugh transgenic approaches . Chinese J. Biotechnol. , 20 : 471 – 476 .
  • Ahmad , P. , Ashraf , M. , Younis , M. , Hu , X. , Kumar , A. , Akram , N. A. and Al-Qurainy , F. 2012 . Role of transgenic plants in agriculture and biopharming . Biotechnology Advances. , 30 : 524 – 540 .
  • Shewry , P. R. , Jones , H. D. and Halford , N. G. 2008 . Plant biotechnology: Transgenic crops . Adv. Biochem. Engin./Biotechnol. , 111 : 149 – 186 .
  • Newmann , K. , Stephan , D. P. , Ziegler , K. , Huhns , M. , Broer , I. , Lockau , W. and Pistorius , E. K. 2005 . Production of cyanophycin, a suitable source for the biodegradable polymer polyaspartate, in transgenic plants . Plant Biotechnol. J. , 3 : 249 – 258 .
  • Snell , K. D. and Peoples , O. P. 2002 . Polyhydroxyalkanoate polymers and their production in transgenic plants . Metabolic Engineering. , 4 : 29 – 40 .
  • Riesmeier , J. , Kobmann , J. , Trethewey , R. , Heyer , A. , Landschiitze , V. and Willmitzer , L. 1998 . Production of novel polymers in transgenic plants . Polym. Degrad. & Stabil. , 59 : 383 – 386 .
  • Kurdikar , D. , Fournet , L. , Slater , S. C. , Paster , M. , Gerngross , T. U. and Coulon , R. 2001 . Greenhouse gas profile of a plastic material derived from a genetically modified plant . J. Ind. Ecol. , 4 : 107 – 122 .
  • Devine , M. D. 2005 . Why are there not more herbicide-tolerant crops? . Pest. Manag. Sci. , 61 : 312 – 317 .
  • Ku , H. , Wang , H. , Pattarachaiyakoop , N. and Trada , M. 2011 . A review on the tensile properties of natural fiber reinforced polymer composites . Composites: Part B. , 42 : 856 – 873 .
  • Kalia , D. , Kaith , B. S. and Kaur , I. 2009 . Pretreatments of natural fibers and their application as reinforcing material in polymer composites: A review . Polym. Engng. & Sci. , 49 : 1253 – 1272 .
  • Summerscales , J. , Dissanayake , N. , Virk , A. and Hall , W. 2010 . A review of bast fibers and their composites. Part 2 – Composites . Composites: Part A. , 41 : 1336 – 1344 .
  • Khalil , H. P.S.A. , Bhat , A. H. and Yusra , A. F.I. 2012 . Green composites from sustainable cellulose nanofibrils: A review . Carbohydrate Polymers. , 87 : 963 – 979 .
  • Lotus cars, Engineering . 2012 . Group Lotus PLC. http://www.lotuscars.com/engineering/eco-elise (last accessed April 23, 2013)
  • Chaudhary , D. S. , Jollands , M. C. and Cser , F. 2004 . Recycling rice hull ash: A filler material for polymeric composites? . Advances in Polymer Technology. , 23 : 147 – 155 .
  • Lee , J. G. and Culter , I. B. 1975 . Formation of silicon carbide from rice hulls . Bull. Amer. Ceram. Soc. , 54 : 195 – 198 .
  • Petchwattana , N. and Covavisaruch , S. 2011 . Influences of particle sizes and contents of chemical blowing agents on foaming wood plastic composites prepared from poly(vinyl chloride) and rice hull . Mater. & Design. , 32 : 2844 – 2850 .
  • Ndazi , B. S. and Karlsson , S. 2011 . Characterization of hydrolytic degradation of polylactic acid/rice hulls composites in water at different temperatures . Express Polym.Lett. , 5 : 119 – 131 .
  • Dimzoski , B. , Bogoeva-Gaceva , G. , Gentile , G. , Avella , M. and Grozdanov , A. 2009 . Polypropylene-based eco-composites filled with agricultural rice hulls waste . Chemical and Biochemical Engineering Quarterly. , 23 : 225 – 230 .
  • Wang , W. H. , Wang , Q. W. , Xiao , H. and Morrell , J. J. 2007 . Effects of moisture and freeze-thaw cycling on the quality of rice-hull-PE composite . Pigment and Resin Technol. , 36 : 344 – 329 .
  • Dixit , N. , Kortschot , M. T. , Sain , M. and Gulati , D. 2006 . Effect of interactions between interface modifiers and viscosity modifiers on the performance and processibility of the rice hulls-HDPE composites . J. Reinforced Plast. & Comps. , 25 : 1691 – 1699 .
  • Chollakup , R. , Tantatherdtam , R. , Ujjin , S. and Sriroth , K. 2011 . Pineapple leaf fiber reinforced thermoplastic composites: effects of fiber length and fiber content on their characteristics . J. Appl. Polym. Sci. , 119 : 1952 – 1960 .
  • Santafe , H. P.G. , Lopes , F. P.D. , Costa , L. L. and Monteiro , S. N. 2010 . Mechanical properties of tensile tested coir fiber reinforced polyester composites . Revista Materia. , 15 : 113 – 118 .
  • Chattopadhyay , S. K. , Singh , S. , Pramanik , N. , Niyogi , U. K. , Khandal , R. K. , Uppaluri , R. and Ghoshal , A. K. 2011 . Biodegradability studies on natural fibers reinforced polypropylene composites . J. Appl.Polym. Sci. , 21 : 2226 – 2232 .
  • Run-Cang , S. 2010 . Cereal Straw as Resource for Sustainable Biomaterials and Biofuels; , Oxford , , U.K. : Elsevier .
  • Belgacem , M. N. and Gandini , A. 2003 . “ Furan-based adhesives ” . In Handbook of Adhesives Technology, 2nd ed. , Edited by: Pizzi , A. and Mittal , K. L. 615 – 634 . Boca Raton , FL : CRC Press .
  • Okada , A. and Usuki , A. 2006 . Twenty years of polymer-clay nanocomposites . Macromolecular Mater. Eng. , 291 : 1449 – 1476 .
  • Chen , B. , Evans , J. R.G. , Greenwell , H. C. , Boulet , P. , Coveney , P. V. , Bowden , A. A. and Whiting , A. 2008 . A critical appraisal of polymer-clay nanocomposites . Chem. Soc. Revs. , 37 : 598 – 594 .
  • Chen , B. 2004 . Polymer–clay nanocomposites: An overview with emphasis on interaction mechanisms . Br. Ceram. Trans. , 103 : 241 – 249 .
  • Woodruff , M. A. and Hutmacher , D. W. 2010 . The return of a forgotten polymer-polycaprolactone in the 21st century . Prog. Polym. Sci. , 35 : 1217 – 1256 .
  • Szekely , J. , Evans , J. W. and Sohn , H. Y. 1976 . Gas-Solid Reactions , NY : Academic Press .

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