DAFTAR PUSTAKA
Alila S., and Boufi S., (2009). Removal of Organic Pollutants from Water by Modified Cellulose Fibers. Ind. Crop. Prod. 30: 93-104.
Bahar H., Vu-Manh H., and Bechtold T., (2009). Interaction of Cellulose with Alkali Metal Ions and Complexed Heavy Metals. Lenzinger Berichte 87: 142-150. Bethnova, L. (2012). Perekat Likuida dari Limbah Sabut Pinang (Areca catechu L.).
Fakultas Pertanian USU. USU Repository : Medan.
Bezerra R., Teixeira P., dan Eiras C., (2015). Chemical Functionalization of Cellulosic Materials Main Reactions and Applications in the Contaminants Removal of Aqueous Medium. Chapter 4. Brazil: Federal University of Piaui. Bhimte A., dan Tayade P., (2007). Evaluation of Microcrystalline Cellulose Prepared
From Sisal Fibers as a Tablet Excipient: A Technical Note. Japan : AAPS PharmSciTech. 8 (1) :1.
Bogan R., Kuo C., and Brewer R., (1979). Encyclopedia of Chemical Technology. New York : Wiley Interscience. Pages : 703-756.
Chikkol S., Bennehalli B., and Kenchappa M.. (2010). Flexure of Areca Composites. GM Institute of Technology. Bioresource 5(3) : 1846-1858.10
Coffey D., Bell D., and Handerson A., (1995). Cellulose and Cellulose Derivate. New York: John Wiley & Son.
Cronquist, A. (1981). A Intregated Sistem of Classification of Flowering Plants. New York: Columbia University Press.
Dence, C.W., and Reeve, D.W., (1996). Pulp Bleaching Principle and Practice. Atlanta : Tappi Press. Pages : 349-415.
Donghee P., Yeoung S., Hwa Y., and Jong M., (2004). Chromium Biosorption by Thermally Treated Biomass of The Brown Seaweed Ecklonia sp. Ind. Eng. Chem. Resc, (42): 8226-8232.
Dronnet V., Axelois M., Renard C., and Thibault. (1998). Imprvement of the Binding Capacity of Metal Cations by Sugar-beet Pulp. Part 1. Carbohydrat Polymer. 35 : 29-37.
Fengel, D and Wegener, G. (1995). Kimia : Kayu. Terjemahan Hardjono Sastrohamidjojo. Yogyakarta : Gajah Mada University Press.
Fessenden, R.J., dan Fessenden J.S., (1986). Kimia Organik. Jilid 2. Edisi ketiga. Penerbit Erlangga. Jakarta.
Freire C., Silvestre A., Neto C., and Belgacem M., (2006). Controlled Heterrogenous Modification of Cellulose Fibers with Fatty Acid. Polymer Science 100(2). 1093-1102.
Gagliardi D., and Shippee, F., (1963). Crosslinking of Cellulose with Polycarboxylic Acids. Am. Dyest. Rep. 52:300–303.
Granström, M. (2009). Cellulose Derivatives: Synthesis, Properties and Applications. Finland : University of Helsinki.
Haworth, W. N., (1932). Berichte der Deutschen Chemischen Gesellschaft. (A). 65, 43.
Huang and Zhang. (2010). Preparation of Cellulose Sulphate and Evaluation of Its Properties. Chemical Department China.
Jabli M., Aloui F., and Hassine B., (2013). {Cooper (II)/Cellulose] Microspheres Complex for Dye Immobilization. Journal of Engineered Fibers and Fabrics. Volume 8 : 19-20.
Jaiswal P., Kumar P., and Singh V.. (2011). Areca catechu L. : A Valuable Medicine Against Different Health Problems. New Delhi : Research Journal of Medicinal Plant. 5. (2). 145-152.
Kaban J., Bangun H., Meriaty, dan Brahmana, H., (2005). Pembuatan Serta Karakterisasi Membran Haemodialisa Melalui Reaksi Antara Alginat dengan Kalsium Klorida dan Magnesium Klorida. Jurnal Komunikasi Penelitian. Volume 17 (5) : 89-90.
Karnitz, Gurgel, Melo, and Botaro. (2007). Adsorption of Heavy Metal Ion from Aqueous Solution Single Setal Solution by Chemically Modified Sugarcane Bagasse. Bioresource Technology.
Kim S.H, Song H, Nisola G.M, Ahn J, Galera M.M, Chung W.J, Lee C.H. (2006). Adsorption of Lead Ions using Surface Modified Chitin. Journal of Ind.Eng.Chem. Vol 12 (3):469-475
Klemm D., Philipp B., and Heinze T., (1998). Comprehensive Cellulose Chemistry Volume 2. Fundamentals and Analytical Methods. Weinheim: Wiley Verlag. Kottelnikova N., Vainio U., Pirkkalainen K., and Serina R., (2007). Novel
Approaches to Metallization of Cellulose by Reduction of Cellulose-Incorporated Copper and Nickel Ions. Macromolecul Symposia, 254: 74-79. Köhler S., and Heinze T.,. (2007). Cellulose. 14, 489.
Leandro, Freitas and Gil. (2008). Adsorption of Cu(II), Cd(II), and Pb(II) from aqueous single metal solutions by cellulose and mercerized cellulose chemically modified with succinic anhydride. Elsevier.
Lukita, N. (2015). Pemanfaatan Selulosa Mikrokristal Sebagai Bahan Tambahan dalam Pembuatan Tablet. Medan : USU Repository.
Marshall W., Wartelle L., and Boler D., (1999). Enhanced Metal Absorption by Soybean Hulls Modified with Citric Acid. Bioresource Technology 69 :263-268.
Mohamad, E., (2012). Fitoremediasi Logam Berat Kadmium (Cd) Pada Tanah dengan Menggunakan Bayam Duri (Amaranthus spinosus L.). Universitas Negeri Gorontalo. Halaman 17.
Nagel and Heinze. (2010). Esterification of Cellulose with Acyl01H-benzotriazole. O’neil M., Smith A., Heckelmen P., (2001). The Merck Index 13th edition. New
Jearsey : Merck and Co. Whitehouse Station. Oscik, J. (1982). Adsorption. Chichester : Jhon Wiley.
Oyeniyi Y., and Itiola O., (2011). The Physicochemical Characteristic of Microcrystalline Cellulose, Derived From Sawdust, Agricultural Waste Products. Ligerian : International Journal of Pharmacy and Pharmaceutical Sciences. 4(2): 197.
Palar,H. ( 2008). Pencemaran dan Toksikologi Logam Berat. Penerbit Rieneka Cipta. Jakarta.
Panjaitan, R.R., (2008). Pengembangan Pemanfaatan Sabut Pinang untuk Pembuatan Asam Oksalat.Jakarta :Berita Litbang Industri Media Publikasi and Komunikasi Peneliti Industri. 39 (1).
Rajan A., Kurup J., and Abraham T., (2005). Biosoftening of Areca Nut Fiber For Value Added Products. Biochemical Engineering Journal. 25: 237-242.
Richardson, S. and Gorton, L. (2003).Characterisation of the Substituent Distribution in Starch and Cellulose Derivatives, Analytica Chimica Acta (2).New York: McGraw-Hill. Pages 27-65.
Samios F, Dart and Dawkins. (1997). Preparation, characterization and biodegradation studies on cellulose acetate with varying degrees of substitution.
Sitorus, Z. (2010). Pemanfaatan Limbah Padat Pulp di PT. TPL sebagai Bahan Baku pada Pembuatan Keramik Konstruksi. Meand : Universitas Sumatera Utara. Staudinger, H. (1960). Die hochmolekularen organichen Verbindungen – Kautschuk
und Cellulose. Second Edition.Berlin :Springer Verlag
Tarmansyah, K.U., (2007). Pemanfaatan Serat Rami untuk Pembuatan Selulosa.Jakarta :Tim Puslitbang Indhan Balitbang Dephan.
Thanh, N. D., and Nhung H.L.,(2009).Some Derivatives of Cellulose with Diethanolamine and Ethylendiamine.Faculty of Chemistry Hanoi University of Science. Hanoi.
Vaswani, S., (2010). Bio-Based Succinic Acid.California : Sri Consulting. Review No. 14.
Volesky B., and Naja G., (2005). Biosorption Application Strategies In: Proceedings of the 16th Internat. Biotechnol, Symp. (S.T.L.Harrison; DE. Rawlings and J. Petersen) (eds.) IBS Compress Co.,Capetown South Africa: 531-542.
Wang. (2008). Bioresource Technology.doi:10.1016/j.biortech.2008.09.002.
Welch C., and Kottes-Andrews. (1989). Ester Crosslinks: A Route to High Performance Nonformaldehyde Finishing of Cotton. USA : Textile Chemist and Colorist 21 (2) : 13-17.
Yan, Y. (2001) .Production of Sugar Fatty Acid Ester by Enzimatic Esterification in a Stirred-Tank Membrane Reactor: Optimization of Parameters by Response Surface Metodology,
Zahroh B., Lazuardy T., Rohmania S., dan Indah H.,. (2013). Adsorpsi Logam Berat Pb dalam Larutan Menggunakan Senyawa Xanthate Jerami Padi. Semarang : Universitas Wahid Hasyim. Prosiding SNST ke-4 Tahun 2013