S KIM 1001119 bibliography
DAFTAR PUSTAKA
[BPS] Biro Pusat Statistika. (2007). Productiction of Fruit per Province (Ton) 2007.
Tersedia: [Online]. http://bps.go.id/sector/agri/horti/2006/table6.html. [21 Mei
2013].
AAK. (1998). Bertanam Pohon Buah-Buahan. Kanisius. Yogyakarta.
Brito B. S. L., Pereira F. V., Putaux J, dan Jean B. (2012). Preparation, Morphologr
and Struture of Cellulose Nanocrystals From Bamboo fibers. Cellulose, 19 :
1527-1536.
Castro C, Robin Z, Jean-Luc P, Gloria C, Inaki M, dan Piedad G. (2011). Structural
Characterization Of Bacterial Cellulose Produced by Gluconacetobacter
Swingsii Sp. From Colombian Agroindustrial Wates. Carbohydrate Polumers,
84: 96-102.
Chakraborty, A., Sain, M., Kortschot, M. (2005). Cellulose microfibrils: A novel
method of preparation using high shear refining and cryocrushing.
Holzforschung, 59: 102-107.
Chang C, Wang I, Hung K, Perng Y. (2010). Preparation and Characterization of
Nanocrystalline Cellulose by Acid Hydrolysis of Catton Linter. Taiwan J Dor
Sci, 25(3): 251-64.
de Menezes A. Jr., G. Siqueira, A. A. S. Curvelo dan A. Dufresne. (2009). Extrusion
and Characterisation of Functionalised Cellulose Whiskers Reinforced
Polyethylene Nanocomposite. Polymer, 50: 4552-4563.
de Souza Lima, M. M., J. T. Wong, M. Paillet, R. Borsali dan R. Pecora. (2003).
Tranlational and Rotational Dynamics of Rodlike Cellulose Whiskers.
Langmuir, 19: 24-29.
Eichhorn, Stephen J. (2011). Cellulose nanowhiskes: promising materials for
advanced application. The Royal Society of Chemistry, 7: 303-315.
Fessenden Ralp J. dan Fessenden Joan S. (1986). Kimia Organik Edisi Ketiga .
Jakarta: Erlangga.
George Johnsy, Ramana K.V., Bawa A.S. Siddaramaiah. (2011). Bacterial Cellulose
Nanocrystals Exihibiting High Thermal Stability and Their Polymer
Nanocomposite. International Journal of Biological Macromolecules, 48: 5057.
Nurbayani, Asriyani. 2014
WAKTU OPTIMUM ISOLASI NANOKRISTALIN SELULOSA BAKTERIAL DARI LIMBAH KULIT
NANAS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
43
Hestrin, S., dan Schramm, M. (2002). Synthesis of cellulose by Acetobacter Xylinum.
2. Preparation of freeze-dried cells capable of polumerizing glucose to
cellulose. Biochemical Jounal, 58(2): 345-352.
Iguchi M., Yamanaka S., dan Budhiono A. (2000). R eview Bacterial Cellulose–A
Masterpiece of Nature’s Art. J. Mater. Sci, 35: 261-270
Ioelovich Michael. (2012). Optimal Conditions for Isolation of Nanocrystalline
Cellulose Particles. Nanoscience and Nanotechnology, 2(2): 9-13.
Man, Z., Muhammad, N., Sarwono, A., Bustam, M. A., Kumar, M. V., Rafiq, S.
(2011). Preparation of Cellulose Nanocrystals Using an Ionic Liquid. J.
Polym. Environ., 19: 726–731.
Moon, J Robert, Ashlie Martini, John Nairn, John Simonsen dan Jeff Youngnlood.
(2011). Cellulose nanomaterials review: structure, properties and
nanocomposites. Chem. Soc. Rev, 40: 3941-3994.
Nikmatin Siti, P. Setyo, M. Akhiruddin, M. Tieneke, dan P. Aris. (2010). Analisis
Struktur Selulosa Kulit Rotan Sebagai Filler Bionanokomposit dengan
Difraksi Sinar-X. Jurnal Sains Material Indonesia , 13(2): 97-102.
Park, S., Baker, J.O., Himmel, M. E., Parilla, P.A., dan Johnson, D. K. (2010).
Cellulose Crystalinity Index : Measurement Techniques and Their Impact on
Interpreting Cellulose Performance. Biotechnology for Biofuels, 3(10): 1-10.
Peng B. L., Dhar, N., Liu, H. L., Tam, K. C. (2011). Chemistry and Applications of
Nanocrystalline Cellulose and its Derivatives: a Nanotechnology Perspective.
chemical engineering, 9999: 1-16.
Phillips., G.O., dan Williams, P.A., 2000. Handbook of hidrocolloids. CRC Press.
Poedjiadi Anna dan F.M. Titin Supriyanti. (2009). Dasar-Dasar Biokimia . UI-Press.
Universitas Indonesia.
Pranger, L., dan R. Tannenbaum. (2008). Biobased Nanocomposite Prepared by In
Situ Polymerisation of Furfuryl Alcohol with Cellulose Whiskers or
Montmorillonite Clay. Macromolecules, 41: 86821-8687.
Rodiansono, Utami U. B. Lili, W. Nana, Wulandari P. Catur, dan R. Ina. (2013).
Hidrolisis Lignoselulosa Dari Tandan Kosong Kelapa Sawit Menggunakan
Katalis Asam Karboksilat. Jurnal Sains dan Terapan Kimia , 7(1): 60-71.
Roman, M. dan W. T. Winter. (2004). Effect of Sulfate Groups from Sulfuric Acid
Hydrolysis on the Thermal Degradation Behaviour of Bacterial Cellulose.
Biomacromolecules, 5: 1671-1677.
Rulianah S. (2002). Studi Pemanfaatan Kulit Buah Nanas Sebagai Nata De Pina.
Jurnal Bisnis dan Teknologi: 20-25.
44
S. Beck-Candanedo, M. Roman and D. G. Gray. (2005). Biomacromolecules, 6:
1048–1054.
S. Iwamoto, W.H. Kai, A, Isogai dan T.Iwatta. (2009). Biomacromolecules, 10: 25711576.
Susanto, et.al. (2000). Pembuatan Nata De Pina dari Kulit Nenas Kajian Dari Sumber
Karbon dan Pengenceran Medium Fermentasi. Jurnal Teknologi Pertanian
:58-66.
T. Zimmermann, N. Bordeanu dan E. Strub. (2010). Carbohydrate. Polymer, 76:
2080-2092.
Tresnawati Astika. (2006). Kajian Spektroskopi Infra Mera Transformasi Fourier dan
Mikroskop Susuran Elektron Membran Selulosa Asetat dari Limbah Nanas.
Skripsi Sarjana . Fakultas Matematika dan Ilmu Pengetahuan Alam Institut
Pertanian Bogor: tidak diterbitkan.
Wang Neng, Ding Enyong dan Cheng Rongshi. (2008). Preparation and Liquid
Crystalline Properties of Spherical Cellulose Nanocrystals. Langmuir, 24: 5-8.
Yoshinaga S, Tonouchi N, Watanabe K. 1997. Research progress in production of
bacterial cellulose by aeration and agitation culture and its application as a
new industrial material. Biosci. Biotech. Biochem. 6:119-224.
[BPS] Biro Pusat Statistika. (2007). Productiction of Fruit per Province (Ton) 2007.
Tersedia: [Online]. http://bps.go.id/sector/agri/horti/2006/table6.html. [21 Mei
2013].
AAK. (1998). Bertanam Pohon Buah-Buahan. Kanisius. Yogyakarta.
Brito B. S. L., Pereira F. V., Putaux J, dan Jean B. (2012). Preparation, Morphologr
and Struture of Cellulose Nanocrystals From Bamboo fibers. Cellulose, 19 :
1527-1536.
Castro C, Robin Z, Jean-Luc P, Gloria C, Inaki M, dan Piedad G. (2011). Structural
Characterization Of Bacterial Cellulose Produced by Gluconacetobacter
Swingsii Sp. From Colombian Agroindustrial Wates. Carbohydrate Polumers,
84: 96-102.
Chakraborty, A., Sain, M., Kortschot, M. (2005). Cellulose microfibrils: A novel
method of preparation using high shear refining and cryocrushing.
Holzforschung, 59: 102-107.
Chang C, Wang I, Hung K, Perng Y. (2010). Preparation and Characterization of
Nanocrystalline Cellulose by Acid Hydrolysis of Catton Linter. Taiwan J Dor
Sci, 25(3): 251-64.
de Menezes A. Jr., G. Siqueira, A. A. S. Curvelo dan A. Dufresne. (2009). Extrusion
and Characterisation of Functionalised Cellulose Whiskers Reinforced
Polyethylene Nanocomposite. Polymer, 50: 4552-4563.
de Souza Lima, M. M., J. T. Wong, M. Paillet, R. Borsali dan R. Pecora. (2003).
Tranlational and Rotational Dynamics of Rodlike Cellulose Whiskers.
Langmuir, 19: 24-29.
Eichhorn, Stephen J. (2011). Cellulose nanowhiskes: promising materials for
advanced application. The Royal Society of Chemistry, 7: 303-315.
Fessenden Ralp J. dan Fessenden Joan S. (1986). Kimia Organik Edisi Ketiga .
Jakarta: Erlangga.
George Johnsy, Ramana K.V., Bawa A.S. Siddaramaiah. (2011). Bacterial Cellulose
Nanocrystals Exihibiting High Thermal Stability and Their Polymer
Nanocomposite. International Journal of Biological Macromolecules, 48: 5057.
Nurbayani, Asriyani. 2014
WAKTU OPTIMUM ISOLASI NANOKRISTALIN SELULOSA BAKTERIAL DARI LIMBAH KULIT
NANAS
Universitas Pendidikan Indonesia | repository.upi.edu | perpustakaan.upi.edu
43
Hestrin, S., dan Schramm, M. (2002). Synthesis of cellulose by Acetobacter Xylinum.
2. Preparation of freeze-dried cells capable of polumerizing glucose to
cellulose. Biochemical Jounal, 58(2): 345-352.
Iguchi M., Yamanaka S., dan Budhiono A. (2000). R eview Bacterial Cellulose–A
Masterpiece of Nature’s Art. J. Mater. Sci, 35: 261-270
Ioelovich Michael. (2012). Optimal Conditions for Isolation of Nanocrystalline
Cellulose Particles. Nanoscience and Nanotechnology, 2(2): 9-13.
Man, Z., Muhammad, N., Sarwono, A., Bustam, M. A., Kumar, M. V., Rafiq, S.
(2011). Preparation of Cellulose Nanocrystals Using an Ionic Liquid. J.
Polym. Environ., 19: 726–731.
Moon, J Robert, Ashlie Martini, John Nairn, John Simonsen dan Jeff Youngnlood.
(2011). Cellulose nanomaterials review: structure, properties and
nanocomposites. Chem. Soc. Rev, 40: 3941-3994.
Nikmatin Siti, P. Setyo, M. Akhiruddin, M. Tieneke, dan P. Aris. (2010). Analisis
Struktur Selulosa Kulit Rotan Sebagai Filler Bionanokomposit dengan
Difraksi Sinar-X. Jurnal Sains Material Indonesia , 13(2): 97-102.
Park, S., Baker, J.O., Himmel, M. E., Parilla, P.A., dan Johnson, D. K. (2010).
Cellulose Crystalinity Index : Measurement Techniques and Their Impact on
Interpreting Cellulose Performance. Biotechnology for Biofuels, 3(10): 1-10.
Peng B. L., Dhar, N., Liu, H. L., Tam, K. C. (2011). Chemistry and Applications of
Nanocrystalline Cellulose and its Derivatives: a Nanotechnology Perspective.
chemical engineering, 9999: 1-16.
Phillips., G.O., dan Williams, P.A., 2000. Handbook of hidrocolloids. CRC Press.
Poedjiadi Anna dan F.M. Titin Supriyanti. (2009). Dasar-Dasar Biokimia . UI-Press.
Universitas Indonesia.
Pranger, L., dan R. Tannenbaum. (2008). Biobased Nanocomposite Prepared by In
Situ Polymerisation of Furfuryl Alcohol with Cellulose Whiskers or
Montmorillonite Clay. Macromolecules, 41: 86821-8687.
Rodiansono, Utami U. B. Lili, W. Nana, Wulandari P. Catur, dan R. Ina. (2013).
Hidrolisis Lignoselulosa Dari Tandan Kosong Kelapa Sawit Menggunakan
Katalis Asam Karboksilat. Jurnal Sains dan Terapan Kimia , 7(1): 60-71.
Roman, M. dan W. T. Winter. (2004). Effect of Sulfate Groups from Sulfuric Acid
Hydrolysis on the Thermal Degradation Behaviour of Bacterial Cellulose.
Biomacromolecules, 5: 1671-1677.
Rulianah S. (2002). Studi Pemanfaatan Kulit Buah Nanas Sebagai Nata De Pina.
Jurnal Bisnis dan Teknologi: 20-25.
44
S. Beck-Candanedo, M. Roman and D. G. Gray. (2005). Biomacromolecules, 6:
1048–1054.
S. Iwamoto, W.H. Kai, A, Isogai dan T.Iwatta. (2009). Biomacromolecules, 10: 25711576.
Susanto, et.al. (2000). Pembuatan Nata De Pina dari Kulit Nenas Kajian Dari Sumber
Karbon dan Pengenceran Medium Fermentasi. Jurnal Teknologi Pertanian
:58-66.
T. Zimmermann, N. Bordeanu dan E. Strub. (2010). Carbohydrate. Polymer, 76:
2080-2092.
Tresnawati Astika. (2006). Kajian Spektroskopi Infra Mera Transformasi Fourier dan
Mikroskop Susuran Elektron Membran Selulosa Asetat dari Limbah Nanas.
Skripsi Sarjana . Fakultas Matematika dan Ilmu Pengetahuan Alam Institut
Pertanian Bogor: tidak diterbitkan.
Wang Neng, Ding Enyong dan Cheng Rongshi. (2008). Preparation and Liquid
Crystalline Properties of Spherical Cellulose Nanocrystals. Langmuir, 24: 5-8.
Yoshinaga S, Tonouchi N, Watanabe K. 1997. Research progress in production of
bacterial cellulose by aeration and agitation culture and its application as a
new industrial material. Biosci. Biotech. Biochem. 6:119-224.