Adebajo MO, Frost RL, Kloprogge JT, Carmody O, Kokot S, 2003. Porous Materials for Oil Spill Cleanup : A Review of Synthesis, J. Porous Mater., vol. 10, no.
10, pp. 159–170.
Arika FH, Muhammad IA, 2017. Sintesis Superabsorben Aerogel Selulosa Berbasis Bagasse. Skripsi-TK141581. ITS Surabaya.
Aspinall, G O, 1959. Polysaccharides, Pergamon Press, New York.
Bento JF, Mazzaro I,Silva LM, 2013. Diverse Patterns of Cell Wall Mannan/
Galactomannan Occurrence in Seeds of the Leguminosae. Carbohydrate Polymers. 92;192-199.
Berg JC, Bhosale P, 2010. Acoustic Spectroscopy for Colloids Dispersed in A Polymer Gel System, Langmuir, 26:14423-14426.
Cerqueira MA, Souza, BWS, Pinheiro AC, Lima AMP, Miranda C, 2009. Extraction, Purification, and Characterization of Galactomannans from Non- Traditional Source, Carbohydrate Polymers, 75: 408- 414.
Cunha PLR, De Paula RCM, Feitosa JPA, 2007. Purification of guar gum for biological applications. International Journal of Biological Macromolecules 41, 324-231.
De Marco I, Baldino L, Cardea S, 2015. Supercritical Gel Drying for the Production of Starch Aerogels for Delivery System. Chemical Engineering Transaction. Vol. 3, AIDIC Servizi S.r.I.
Fennema OR, Kaur, 2010. Principles of Food Science. Departement of Food Science.
University of Wisconsin Madison. Marcell Dekker, New York. 791p.
Fessenden RJ and Fessenden JS, 1986. Kimia Organik. Jilid 2. Jakarta. Penerbit Erlangga.
Fricke J, 1985. Aerogels. Springer Proceedings in Physics. Springer-Verlag Berlin Heidelberg.
Garcia-Gonzales C, Alnaief M, Smirnova I, 2011. Polysaccaride-Based Aerogels-Promosing Biodegadable Carries For Drug Delivery Systems. Carbohyd Polim, 86, 1425-1438.
Ghafar A, Gurikov P, Subrahmanyam R., 2017. Mesoporous Guar Galactomannan Based Biocomposite Aerogels Through Enzymatic Croslinking. Composite:
Part A, 94:93-103.
Glenn GM,Stern DJ, 1999. Starch—Based Microcellular Foams. Cereal Chem. Vol 72(2) 155—161.
Gong H, Mingzhu Liu, 2012. Journal of Synthesis and characterization of carboxymethyl guar gum and rheological properties of its solutions.
Gowda DV, Khan MS, Vinella S, 2012. Development and Evaluation Cross-Linked Guar Gum Microspheres for Bean Gum Microspheres for Improved Delivery of Anticancer to Colon. Taylor & Francis Group, LLC, 51 : 1395-1404.
Henderson A, 2009. Palms of Southern Asia. New York Botanical Garden., K. 1987.
Tumbuhan Berguna Indonesia.Vol. 1. Yayasan Sarana Wana Jaya. Jakarta.
Iswanto HA, 2009. Aren (Arenga pinnata). Departemen Kehutanan Fakultas Pertanian USU-Repositori.
Juilianto, 2014. Khasiat Tersembunyi Kolang-kaling. Jakarta: Sinar Tari.
Jalili TREC, Wildman, Medeiros DM, 2001. Dietary Fiber and Coronary Heart Disease. In: R.E.C. Wildman (Ed). Handbook of Nutraceuticals and Functional Foods USA: CRC Press
Joana T, Martins, Miguel, A, Cerqueira, Ana I, Bourbon, Ana C, Pinheiro, Bartolomeu WS, Souza, António A, Vicente. 2012. Synergistic effects between k-carrageenan and locust bean gum on physicochemical properties of edible films made thereof. Food Hydrocolloids, 29, 280-289.
Kabir GIK, Yagen B, Penhasi A, Rubinstein A, 2000. Phosphated Crosslinked Guar for Colon-Specific Drug Delivery, 1. Preparation and Physicochemical Characterization. Journal Controlled Release, 63: 121-127.
Kabir GI, Yagen B, Penhasi A, Rubinstein A, 1998. Low Swelling, Crosslinked Guar and Its Potential Use as Colon-Specific Drug Carrier. Pharmaceutical Research, 15 (7): 1091-1025.
Laberge M, 2008. Biochemistry. Chelsea House An imprint of Infobase Publishing 132 West 31st Street New York NY 10001, hlm 47 –53.
Lempang, Mody, 2012. Pohon Aren dan Manfaat Produksinya. Jurnal Ilmiah Farmasi vol 9 No.1.
Liebner F, Potthast A, Rosenau T, Haimer E, Wendland M., 2008. Cellulose aerogels:highly porous, ultra-lightweight materials. Holzforschung 62:129.
Liu J, Wang B, Lin L, Zhang J, Liu W, Zie J, 2014. Functional physicochemical properties and structure of cross-linked oxidized maize starch. Food Hidrocolloids.36:45-52.
Mao Gui-Jie, Peng W, Xing Z, Tong Z, 2006. Crosslinking of Corn Starch with Sodium Trimetaphosphate in Solid State by Microwave Irradiation. Journal of Applied Polymer Science. 102: 5854-5860.
Mathur V, Mathur NK, 2005. Fenugreek and Other Lesser Known Legume Galactomannan-Polysaccharides : Scope For Developments, Journal of Scientific & Industrial Research, 64: 475-481.
Mathur NK, 2012. Indutrial Galactomannan Polysaccharides. Journal of Scientific &
Industrial Research. CRC Press, Boca, Raton, Florida.
Mogea J, Siebert B, Smits W, 1991. Multipurpose Palms : The Sugar Palm (Arenga pinnata (Wurmb) Merr). Argoforestry Systems. 13 : 111 – 129.
Morris ER, Rees DA, Young G, Walkinshaw MD, Darke A, 1977. A Role for Polisaccharide Conformation in Recognition Between Xanthomonas Pathogen and its Plant Host. Journal Mol Biol, 110-116.
Nishimura T, Morega AM, Kunitsugu K, 1997. Vortex Structure and Fluid Mixing in Pulsatile Flow Through Periodically Grooved Channels at Low Reynold Numbers. JSME International Journal Series B, Vol. 40, No. 3: 377-385.
Nishimura T, Yoshinaka M, Kunitsugu K, 2001. Oscillatory Momentum Transport and Fluid Mixing in Grooved Channels for Pulsatile Flow. Department of Mechanical Engineering. Yamaguchi University, Ube, 755-8611 Japan.
Orwa C, Mutua A, Kindt R, Jamnadass R, Anthony S, 2009. Agroferestree Databese Tree Reference and Selection Guid Version 4.0.
Pal S, Mal D, Singh RP, 2007. Synthesis and Characterization of Cationic Guar Gum: A high performance flocculating agent. Journal of Applied Polymer Science,105(6), 3240-3245.
Ramadani PI, Khaeruddin A, Tjoa, IF Burhanuddin, 2008. Pengenalan Jenis-Jenis Pohon Yang Umum di Sulawesi. UNTAD Press, Palu. Dalam jurnal
Simanungkalit dkk, 2014. Efektifitas Buah Aren (Arenga Pinnata Wumb Merr) terhadap Penurunan Kadar Kolesterol Tikus Putih Jantan Galur Sprague-Dawley.
Rana V, Rai P, Tiwary AK, Singh RS, Kennedy JF, Charles, 2011. Modefied Gums Approaches and Applications in Drug Delivery. Carbohydrate Polymers, 83: 1031-1047.
Rashid F, Hussain S, Ahmeed Z, 2017. Extraction Purification and Characterization of Galactomannan From Fenugreek for Industrial Utilization. Carbohydrate Polymers, C ARP 12874.
Sigres DP, Sutrisno A, 2013. Enzim Mananase dan Aplikasi di Bidang Industri, Jurnal Pangan dan Agroindustri. Vol. 3.
Singh V, Srivastara A, Tivani A, 2009. Structural Elucidation, Modifikasi and Characterization of seed Gum Frum Cassia Javahikal seeds : A Non Traditional source of Industrial Gums. International Journal of Biological Macromolecules.
Sitorus M, 2001. Spektroskopi Elusidasi Struktur Molekul Organik. Edisi Pertama.
Yogyakarta; Graha Ilmu.
Smirnova I, Mamic J, Arlt W, 2003. Adsorption of Drugs on silica aerogels, Langmuir 19, 8521-8525.
Srivastava M, Kapoor VP, 2005. Seed galactomannans: An overview, In Chemistry
& Biodiversity, 2: 295-317.
Soeseno S, 1992. Bertanam Aren. PT. Penebar Swadaya, Jakarta.
Sunanto H, 1993. Aren: Budidaya dan Multigunanya, Kanisius –Jakarta. Dalam jurnal Sarmi dkk, 2016. Isolasi senyawa galaktomanan buah aren (arenga pinnata) menggunakan beberapa jenis abu.
Tahlawy K, Venditti R, Pawlak J, 2007. Aspect of the Preparation of Starch Microcellular Foam Particles Crosslinked With Glutaraldehyde Using A Solvent Exchange Technique. Carbohydrate Polymers67 319-331.
Tarigan J, Kaban J, 2009. Analisis Thermal dan Komponen Kimia Kolang Kaling, Jurnal Biologi Sumatera. 4,1.
Tarigan J, 2012. Karakterisasi Edible Film yang Bersifat Antioksidan dan Antimikroba dari Galaktomanan Biji Aren (Arenga pinnata) yang Diinkoporasi dengan Minyak Atsiri Daun Kemangi (Ocimum basilicum L.), FMIPA, USU, Medan.
Tarigan J, Rosidin M, 2014. Stabilitas Vitamin E dari PFAD (Palm Fatty Acid Disstillate) yang Diinkorporasi pada Galaktomanan Kolang-Kaling. USU, Medan.
Tarigan J, Puba D, 2014. Karakterisasi Polisakarida Glaktomanan Kolang-kaling (Arenga pinnata) Terikat Silang Fosfat. USU, Medan.
Tarigan J, Barus D, 2017. Pembuatan Mesopori Aerogel Endosperm Biji Aren (Arenga pinnata) dan Adsorbsinya Terhadap Vitamin E Palm Fatty Acid Destilate. USU. Medan.
Zultiniar GD, Casoni MS, 2009. Ekstraksi Galaktomanan Dari Ampas Kelapa. Lab.
Proses Pemisahan dan Pemurnian, Program Studi Teknik Kimia Fakultas Teknik Universitas Riau.
LAMPIRAN
Lampiran 1 Hasil Penentuan Tekstur Biji Aren (
)
1. Tekstur Biji Aren Keras
( 2. Tekstur Biji Aren Sedang
( 3. Tekstur Biji Aren Lunak
(
Lampiran 2. Foto Serbuk Polisakarida Biji Aren
- Lunak - Sedang
- Keras
Lampiran 3. Gambar alat vortex Lampiran 4. Aerogel Polisakarida Biji Aren Lunak Ikat Silang Fosfat
Lampiran 5. Hasil Analisa FT-IR Serbuk Polisakarida Dan Aerogel Polisakarida Terikat Silang Fosfat.
1. Serbuk polisakarida
2. Aerogel polisakarida ikat silang fosfat 0.1 g TMF
3. Aerogel polisakarida ikat silang fosfat 0.25 g TMF
4. Aerogel polisakarida ikat silang fosfat 0.5 g TMF
5. Aerogel polisakarida ikat silang fosfat 1 g TMF
Lampiran 6. Foto Marfologi Permukaan SEM Serbuk Polisakarida Dan Aerogel Polisakarida Terikat Silang Fosfat
1. Polisakarida
2. Aerogel Polisakarida Terikat Silang Fosfat
Lampiran 7. Hasil Analisa XRD Serbuk Polisakarida Dan Aerogel Polisakarida Terikat Silang Fosfat
1. Polisakarida
Position [°2Theta] (Copper (Cu))
20 30 40 50 60
Counts
0 100 200 300
Galaktomanan
Pos. [°2Th.] Height [cts] FWHM Left [°2Th.] d-spacing [Å] Rel. Int. [%]
20.5261 61.58 0.4015 4.32702 100.00
31.5813 15.65 0.5353 2.83305 25.41
2. Aerogel Polisakarida Terikat Silang Fosfat 1 g TMF
Pos. [°2Th.] Height [cts] FWHM Left [°2Th.] d-spacing [Å] Rel. Int. [%]
12.2443 135.72 0.1673 7.22877 51.78
13.3640 90.64 0.1338 6.62554 34.58
16.9373 154.30 0.0669 5.23492 58.87
17.7304 190.55 0.1004 5.00249 72.70
20.5596 154.64 0.1338 4.32006 59.00
22.5920 108.79 0.1338 3.93580 41.50
24.8022 262.12 0.1171 3.58986 100.00
25.5506 203.66 0.0669 3.48638 77.70
26.5293 157.82 0.2007 3.35994 60.21
Position [°2Theta] (Copper (Cu))
20 30 40 50 60
Counts
0 100 200 300
400 GKKTF 1gr TMP
27.4542 42.12 0.1004 3.24882 16.07
29.3850 158.88 0.1171 3.03960 60.61
31.4790 217.31 0.1506 2.84202 82.90
32.1578 122.85 0.2342 2.78356 46.87
34.2858 214.67 0.0836 2.61551 81.90
36.2569 41.06 0.2007 2.47771 15.67
37.5878 89.54 0.1673 2.39299 34.16
39.5955 35.41 0.2676 2.27616 13.51
40.9268 35.50 0.2007 2.20514 13.55
42.3975 51.30 0.2676 2.13199 19.57
45.1793 25.16 0.2007 2.00698 9.60
46.3505 66.23 0.2676 1.95896 25.27
46.9900 32.63 0.1004 1.93378 12.45
50.9609 14.39 0.3346 1.79203 5.49
53.1212 27.18 0.1338 1.72414 10.37
54.6555 26.18 0.2676 1.67931 9.99
56.8813 14.72 0.3346 1.61877 5.61
58.2370 9.86 0.4015 1.58428 3.76
60.1871 11.23 0.5353 1.53753 4.28
64.1943 22.55 0.3346 1.45088 8.60
65.7971 17.93 0.4015 1.41937 6.84
68.7161 9.68 0.3346 1.36603 3.69