DAFTAR PUSTAKA

Alemdar, A., and Sain, M. 2008. Isolation and Characterization of Nanofiber From Agricultural Residues-Wheat Straw and Soy Hulls. Biosource

Technology, 99(6), 1664-1671

Anggraita, P. 2006. Penelitian Bahan Nano (Nanomaterial) di Badan Tenaga Nuklir Nasional, Jurnal Sains Materi Indonesia, ISSN: 1411-1098

Andriyati A,H. 2007. Pemanfaatan Limbah Tandan Kosong Kelapa Sawit untuk Papan Serat Semen, Jurnal Pemukiman Volume 2 No 3.

Barriga, S. 2001. 2,2,6,6-Tetramethylpiperidine-1-oxyl (TEMPO). 563

Bailey, W., Bobbitt, J., Wiberg, K. 2007. Organic Chemistry, 72, 4504-4509

Chen, W., Yu, H., Liu, Y and Zhang, M. 2011. Isolation and characterization of cellulose nanofibers from four plant cellulose fibers using a chemical-ultrasonic process. Springer Science+Business Media 18:433–442

Cowd, A. 1991. Kimia Polimer, Alih bahasa oleh Drs. Harry Firman, M.Pd., Penerbit ITB, Bandung.

Darnoko. 1992.Potensi Pemanfaatan Limbah Lignoselulosa Kelapa Sawit Melalui Biokonversi. Berita penelitian perkebunan vol 2 (2). Medan: Puslitbun (RISPA).

De Azeredo, H.M.C., 2009. Nanocomposites for food packaging applications. Food.Res. Int. 42, 1240–1253.

De Nooy AEJ, Bessemer AC, Van Bekkum, H. 1996. synthesis, 10, 1153-1179

Ditjen Perkebunan. 2014. Pertumbuhan Aral Kelapa Sawit Meningkat. Http:/ditjen.pertanian.go.id/setditjenbun

Dodd, J.W., 1987. Thermal Methods. New York: John Willey and Sons, Inc.

Du Chao, Hailong Li, Mengru Liu, Huaiyu, Z. 2016. Characteristics and Properties Of Cellulose Nanofiber Prepared by TEMPO Oxidation Of Corn Husk. BioResources 11(2),5276-5284

Enari, T.M. 1983. Microbial Cellulase. Di dalam W. M. Fogarty (ed). Microbial Enzyme and Biotechnology Applied Science Publisher. New York

Fukuzumi, H. 2009. Studies On Structure and Properties TEMPO-Oxidized Cellulose Nanofibril Films. The University of Tokyo

Gardner, D. 2008. Adhesion and Surface Issue in Cellulose and Nanocellulose.

Adhesion Science and Technology. 22:545-567.

Goodger, E. M., 1976. Hydrocarbon Fuels, Production, Properties, and Performance of Liquid and Gases.London: MacMillan.

Goring, D. 1963. Thermal Softening of Lignin. Pulp and Paper Magazine of Canada. 64 (12): T517-T527.

Habibi, Y., L.A. Lucia and O.J. Rojas. 2010. Cellulose Nanocrystal: Chemistry. Self-Assembly and Applications.

Hadi, M. 2004. Tehnik Berkebun Kelapa Sawit. Yogyakarta: Adicita Karya Nusa.

Hitoshi, T.; Akira, A. Key Eng. Mat. 2007. 334–335, 389–392.

Lebedev, O. 1960. Zhur. Obshsc. Kim. 1631- 1635

Mangoensoekarjo, S. 2003. Manajemen Agrobisnis Kelapa Sawit. Yogyakarta: Gadjah Mada University Press.

Mao, Lianshan, PU Ma, Kweinam Law, Claude Deneault, and Franois Brouillette. 2010. Studies on kinetics and Reuse of Spent Liquor in the TEMPO-Mediated Selective Oxidation of Mechanical Pulp. Industrial and Engineering Chemistry Research 113-116

McMurry, J. 1992. F undamental Of General, Organic and Biological Chemistry.

USA: Pearson Prentice Hall.

Montanari, F. 2005. 2,2,6,6-Tetramethylpiperidin-1-oxyl. Encyclopedia of Reagents for Organic Synthesis. Jhon wiley & Sons

Mulia, A. 2007. Pemanfaatn Tandan Kosong Sawit dan Cangkang Kelapa Sawit sebagai Briket Arang. Medan: Universitas Sumatera Utara.

Mustar, A. R. 2011. Kajian Standar Nanoteknologi. Prosiding PPI standarisasi, Yogyakarta

Nishino, T.; Matsuda, I.; Hirao, K. 2004. Macromolecules. 37, 7683–7687.

Ohwoavworhua, F. 2005. Phosporic Acid-Mediated Depolymerization and

Decrystallization of α-Cellulose Obtained From Corn Cob: Preparation of Low Crystallinity Cellulose and Some Physicochemical Properties. Tropical Journal Of Pharmaceutical Research. 4 (2): 509-516

Okita, Y., Saito, T., and Isogai, A. 2009. TEMPO-Mediated Oxidation of Softwood Thermo Mechanical Pulp. Holzforschung 63(5), 529-535

Poedjiadi, A. 2006. Dasar-Dasar Biokimia. Jakarta: Universitas Indonesia

Ramsden, J.J. 2009. Nanoteknologi Terapan: Konversi dari Hasil Penelitian Menjadi Produk. Terjemahan. Jakarta: Erlangga

Reneker, D.H. and Chun, I. Nanotechnology, 7, 216, 1996.

Roman, M., Dong, S., Hirani, A., Lee, Y.W., 2009. Cellulose nanocrystals for drug delivery. Polysaccharide Mate: Performance by Design, vol. 1017., pp. 81–91.

Rong, L.T. 2011. Manufacture of Cellulose Nanocrystals by cation exchange Resin-Catalyzed Hydrolysis of Cellulose. Bioresource technology. 102: 10973-10977.

Said Azizi Samir, M., Alloin, F., Dufresne, A. 2005. Biomacromolecules. 612– 626.

Setiawan, Y. 2010. Peranan Polimer Selulosa Sebagai Bahan Baku dalam Pengembangan Produk Manufaktur Menuju Era Globalisasi.Bandung: Universitas Islam Indonesia.

Silverio, H.A. 2012. Extraction and Characterization of Cellulose Nanocrystals from Corncob for Application as Reinforcing Agent in Nanocomposites. Industrial Crops and Products. 6376:1-10.

Solechudin. 2002. Pedoman Kerja Praktek PT.Leces Persero. Probolinggo. PT. Leces.

Soni, B., Hassan, E. B. 2015. and Mahmoud, B. Chemical Isolation and Characterization of Different Cellulose Nanofibers From Cotton Stalks. Carbohydrate Polymer

Steven, M. 2001. Kimia Polimer. Cetakan Pertama. Jakarta: Pradya Paramitha.

Suminar, S. 1990. Kimia Kayu, Dirjen Pendidikan Tinggi Pusat Antar Universitas Ilmu Hayat. Bogor: IPB.

Utami, D. R. 2011. Analisa Kadar Alfa Selulosa dari Tandan Kosong Kelapa Sawit dengan Metode Gravimetri. Medan: Universitas Sumatera Utara.

Voutou, B. 2008. Electron Microscopy: The Basics. Eropa: Physics of advanced materials winter school.

Wirjosentono, B. 1995. Analisis dan Karakterisasi Polimer, USU-Press, Medan.

Yamaguchi, M., Miyazawa T, Takata T, Endo T. 1990. Pure Appl Chem. 62: 217

Yano, H., Sugiyama, J., Nakagaito, N.A., Nogi, M., Matsuura, T., Hikita, M., Handa, K. 2005. Optically transparent composites reinforced with networks of bacterial nanofibers. Adv. Mater. 17, 153–155.

Zhang, T., Wang, W., Zhang, D., Zhang, X., Ma, Y., Zhou, Y., Qi, L. 2010.

Biotemplated synthesis of gold nanoparticle–bacteria cellulose nanofiber nanocomposites and their application in biosensing. Adv. Funct. Mater. 20, 1152–1160.