Ade, 2008. Desain sistem elektrodeposisi untuk sumber radioaktif. Jakarta: UIN Syarifhidayatullah, Fakultas Sains dan Teknologi.

Agusu, L., dan Yuliana., 2017. Fabrikasi Komposit Graphene/TiO₂/PAni sebagai Bahan Elektroda Baterai Lithium-Ion(Li-Ion). Kedari : Universitas Halu Oleo (UHO)

Ahmed, R.A., Fargahli, R.A., Fekry, A.M., 2012. Study for the Stability and Corrosion Inhibition of Electrophoretic Deposited Chitosan on Mild Steel Alloy in Acidic Medium. International Journal of Electrochemical Science 7 (2012) 7270 - 7282

Anderson,S.H., and Chung, D.D.L.,1984. Exfoliation of intercalated graphite, Carbon 22, 253–263.

Aprillianti, A., 2007. Studi Kasus Penggunaan Formalin Pada Tahu Takwa Di Kotamadya Kediri. Malang : Universitas Muhammadiyah Malang.

Artadi, A., Sudaryo, dan Aryadi., 2007 “Penggunaan grafit batu baterai sebagai alternatif elektroda spektrografi emisi,” JFN, vol. 1, no. 2

Asrosa, R., 2018. Peningkatan Sifat-Sifat Penginderaan Sensor Film Kitosan Terhadap Aseton Melalui Ikatan Silang Dengan Sodium Tripolifosfat.

[Skripsi]. Medan : Universitas Sumatera Utara

Bagheri, H., Ghambarian M., Salemi, A., Es-Haghi, A, Trace determination of free formaldehyde in DTP and DT vaccines and diphtheria–tetanus antigen by single drop microextraction and gas chromatography–mass spectrometry. J.

Pharmaceutical Biomed. Anal., vol. 50, no. 3, pp. 287–292

Basmal. 2011. Pengaruh rapat arus dan waktu pelapisan pada proses electroplating terhadap ketebalan lapisan krom. Politeknosains, 10(2): 1 – 10

Buchsteiner, A., Lerf, A., Pieper, J., 2006. Water dynamics in graphite oxide investigated with neutron scattering, J. Phys. Chem. B 110 22328-22338.

Budtova, T., dkk, 2001. Chitosan Modified by Poly(ethylene oxide): Film and Mixture Properties. Rusia : Institute of Macromolecular Compounds,

Butler B.L., Vergano PJ, Testin R.F., Bunn J.M., Wiles JL. 1996. Mechanical and barrier properties of edible chitosan films as affected by composition and storage. Journal Food Science. Vol. 61: 953-961

Boonsongrit ,Y.; Mueller, B.W.; Mitrevej, A. 2008. Characterization of drug–

chitosan interaction by 1H NMR, FTIR and isothermal titration calorimetry.

Eur. J. Pharm. Biopharm., 69, 388–395.

Cahyadi W. 2009. Analisis dan aspek kesehatan bahan tambahan pangan. Jakarta:

Bumi Aksara

Cai,M., Thorpe, D., Adamson, D.H., Schniepp, H.C., 2012. Methods of Graphite Exfoliation. Journal of Material Chemistry 2012, 22, 24992

Caner C, Vergano PJ, Wiles JL. 1998. Chitosan film mechanical and permeation properties as affected by acid, plasticizer, and storage. Journal Food Science, Vol. 63(6):1049-1053.

Celzard,A., , Mareche, J.E., Furdin, G., 2005.Modelling of exfoliated graphite, Prog.

Mater Sci. 50 93–179

Chandrasakaran D.V., Nainggolan I, Ikhsan T., Derman, M.Z., 2015. Ammonia gas sensor based on chitosan biopolymer. Materials Science Forum Vol. 819 (2015) pp 429-434

Chung, D.D.L., 2002. Review graphite, J. Mater. Sci. 371475–1489.

Debelak, B., Lafdi,K ., 2007. Use of Exfoliated Graphite Filler to Enchance Polymer Physical Properties. Carbon 45 (2007) pp. 1727-1734

Demitri C., Moscatello, A., Giuri, A., Rauci., M.G., Corcione, C.E., 2015.

Preparation and Characterization of EG-Chitosan Nanocomposite via Direct Exfoliation: A Green Methodology. Polymers, pp 2584–2594

Djamal, M., Sanjaya,E., Wirawan R, dan Hartono A., 2011. Sensor, Teknologi, dan Aplikasinya. Prosiding Seminar Kontribusi Fisika. Bandung, Indonesia

Eldo S.M. 2012. Sintesis Bioplastik dari Pati Ubi Jalar Menggunakan Penguat Logam ZnO dan Penguat Alami Selulosa,Depok : Universitas Indonesia.

Eljali, A., Nainggolan, I., Hashim, S., Ikhsan, T., Zurihan, N.A.W., 2017.

Fabrication Of Chitosan-Polyethylene Oxide Polymeric Thin Film Using Electrochemical Deposition For Detection Of Volatile Organic Compounds.

Malaysia.

56

Fathurrahman, M., Sugita, P. dan Purwaningsih, H., 2017, Sintesis dan Karakterisasi Kitosan Bertaut Silang Glutaraldehida Sebagai Adsorben Pemurnian Minyak Akar Angi, Jurnal Kimia dan Pendidikan, 2, 1: 109-113

Fikriyyah, A.K, Chaldun, E.R., Indriyati. 2018. Synthesis and properties of platinum on multiwall carbon nanotube modified by chitosan. Journal of Physics:

Conference Series (985)

Fine, G.F., Cavanagh, L.M., Afonja, A., Binions, R., 2010. Metal Oxide Semi-Conductor Gas Sensors in Environmental Monitoring . Sensors, 10,pp: 5469-5502

Frizha, M., 2014. Pengembangan Dan Karakterisasi Sifat Listrik Film Kitosan Sebagai Sensor Aseton Dengan Penambahan Carboxymethyl Cellulose (CMC).[Skripsi]. Medan : Universitas Sumatera Utara.

Gunawan, B., dan Sudarmaji, A., 2017. The Use of Polymer Based Gas Sensor for Detecting Formalin in Food Using Artificial Neural Network.

TELKOMNIKA, Vol.15, No.4, December 2017, pp. 1641~1650 Goosen, M.F.A. 1997. Application of Chitin and Chitosan. Technomic Pub.Co,.Inc., Lancaster

Handayani., 2006. Bahaya Kandungan Formalin Pada Malwnan. PT. Astra Internasional Tbk-Head Office . Jakarta.

Hartomo, J.A. 1986. Penyidikan Spektrometrik Senyawa Organik. Edisi Keempat.

Jakarta: Erlangga.

Hastuti, S. 2010. Analisis Kualitatif dan Kuantitatif Formaldehid pada Ikan Asin Di Madura., Jurnal Agrointek Vol 4, No. 2, Fakultas Pertanian, Universitas Trunojoyo

Hirano, S., 1984. Chitin and Chitosan. Five Edition. Ulmann’s Encyclopedia of Industrial Chemistry : Republicka of Germany. 231-232

Jon S. Wilson. 2005. Sensor Technology Handbook. Elsevier, USA. pp: 161 - 177.

Kaban, J. 2009. Modifikasi kimia dari kitosan dan aplikasi produk yang dihasilkan.

Pidato Pengukuhan Jabatan Guru Besar Tetap dalam Bidang Kimia Organik Sintesis Universitas Sumatera Utara. Medan.

Kadir, M.F.Z.; Aspanut, Z.; Majid, S.R.; Arof, A.K. 2011. FTIR studies of plasticized poly(vinyl alcohol)–chitosan blend doped with NH4NO3 polymer

electrolyte membrane. Spectrochim. Acta Mol. Biomol. Spectros. 78, 1068–

1074

Kun-Wei,K., Hsu,M.C, Yun-Hwa, C., Shangjr gwo and J. Andrew Yeh. 2012. A sub-ppm acetone gas sensor for diabetes detction using 10 nm thick ultra thin inN FETs. Sensors, 12: 7157 - 7168.

Lee, B.J., 2002. Characteristic of Exfoliated Graphite Prepared by Intercalation of Gaseous SO₃ into Graphite. Bull.Korean Chem Soc. Vol.23, No.12

Li, Y-L., Liu, J.,Guan, W.S, 2009. Determination of trace formaldehyde in alcoholic beverage by chromotropic acid spectrophotometry, Proc. 3rd Int. Conf.

Bioinformat. Biomed. Eng.pp. 1–4.

Lim LY, Wan SC. 1995. Heat treatment of chitosan films. Drug Dev Ind Pharm.;21:839–846. doi: 10.3109/03639049509026648

Maghrifandi,R., Hosta Ardhyananta, H., 2012. Pengaruh Penambahan Grafit Terhadap Kekuatan Tarik, Konduktivitas Listrik Dan Stabilitas Termal Pada Komposit Polidimetilsiloksan/Grafit. Surabaya : Institut Teknologi Sepuluh November.

Mohammadi, S., Taromi, F.A., Shariatpanahi, H., and Neshati, J., 2015.

Improvement in Dispersion of Phosphate Pigments Modified by Functionalized Graphite Nanoplatelets and Its Influence on Epoxy Coating Adhesion. Iran : Research Institute of Petroleum Industry

Muzzarelli RAA., 1993. Biochemical significance at exogenous chitins and chitosan in animals and patiens. Biomaterials. Vol. 20. P.7-16.

Nieto, M.C. 2009. Structure and Function of Polysaccharide Gum Based edible film and Coating. Embuscado.M and K.C.Humber. Edible Film and Coating For Food Application. Springer Link. New York

Nuryasin. 2006. Bahaya Formalin . http://ikap=kdk.com/arpan/content/view/III Pang,X., Zhai, Z., Duan, M., Tian, Y., 2015. Synthesis of Expandable Graphite and

its effect on flame retardancy properties of polyethylene. Indian Journal of Chemical Technology (22) : 67-72

Penteado, J. C. P., Sobral, A. C., Masini, J. C., 2008. Evaluation of monolithic columns for determination of formaldehyde and acetaldehyde in sugar cane

58

spirits by high-performance liquid chromatography. Anal. Lett., vol. 41, no. 9, pp. 1674–1681

Pramono, S., 2012. Pengaruh Formalin Peroral terhadap Gambaran Hispatologi Hepar Tikus Wistar. [Skripsi]. Semarang : Universitas Diponegoro

Rakhmawati, E., 2007, Pemanfaatan Kitosan Hasil Deasetilasi Kitin Cangkang Bekicot Sebagai Adsorben Zat Warna Remazol Yellow, [Skripsi]. Surakarta : Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Sebelas Maret Rohman, M A., 2016, Pengaruh Penambahan Glutaraldehid Terhadap Kitosan

Terplastis Carboxy Methyl Celulose (CMC), [Skripsi]. Surabaya: Universitas Airlangga

Safitri, A.G., dan Santoso, E., 2016. Perbandingan Variasi Komposisi PVA/Kitosan terhadap Perilaku Membran Komposit PVA/Kitosan/Grafin Oksida yang Terikat Silang Trisodium Sitrat. Jurnal Sains Dan Seni Its Vol. 5, No.1, 2337-3520

Salih, A.A., and Ramadin, Y., 2010. Electrical Properties of Poly(Ethylene Oxide) polimer Doped by MnCl2. Al- Haitham J. For Pure. Appl. Sci

Sancakstar., E and Bai,L., 2011. Electrically Conductive Epoxy Adhesives.

Polymers, 3, 427-466

Saparinto C, dan Hidayati D., 2006. Bahan tambahan pangan.Yogyakarta: Kanisius Sartono, A.A . 2006. Difraksi sinar –X (XRD). Kajian Laboratorium. Departemen

Fisika Fakultas Matematika dan Ilmu Pengetahuan Alam Universitas Indonesia. Jakarta : UI Press

Slonczewski, J.C., and P. R. Weiss,, P.R., 1958. Band Structure of Graphite, Phys.

Rev., vol. 109, no. 2, pp. 272–279,

Steven, M.P. 2001. Kimia Polimer. Cetakan Pertama. Jakarta: Pradnya Paramita Sugita, P. 2009. Kitosan: Sumber Biomaterial Masa Depan. Bogor : IPB Press.

Sun, K., and Z. H. Li. 2011. preparation, properties and application of chitosan based nanofibers fabricated by electrospinning. Express Polymer Letters, 5(4): 342 - 361.

Svitil, A.L.,Nichadain, S.N,.. Moore, J.A and Kirchman, D.L. 1997. Chitin degradation protein produced by the marine bacterium Vibrio harveyii growing on different forms of chitin. Appl. Environment. Microbiology

Tanheitafino, S., Zaharah,A.T., Destiarti, L., 2016. Modifikasi Kitosan Dengan Kaolin Dan Aplikasinya Sebagai Adsorben Timbal (II), JKK, Vol 5(2) : 33-42 Vipin Bansal, Pramod K. Sharma, Ninin Sharma, Om Prakash Pal and Rishabia Malviya. 2011. Applications of chitosan and chitosan derivatives in drug delivery. Advances In Biological Research, 5(1): 28 - 37.

Wang, Q., Zheng, J., and Zhang, H., 2012. A novel formaldehyde sensor containing AgPd alloy nanoparticles electrodeposited on an ionic liquid–chitosan composite film. Journal of Electroanalytical Chemistry 674: 1–6.

Williams, D.E. 1999. Semiconducting oxides as gas-sensitive resistors. Sens. Actuat.

B-Chem. 57, 1–19

Wirjosentono, B. 1995. Analisis dan Karakterisasi Polimer. Edisi Pertama. Cetakan Pertama. Medan: USU Press.

World Health Organization (WHO).2002. Formaldehyde. Concise International Chemical Assessment Document 40. Geneva; 48: 6-7.

Xue, J., Li, J., Wu, M., Wang, W., Ma, D., 2011. Preparation and Characterization of Formaldehyde crosslinked Chitosan. Advanced Materials Research. Vols 239-242, pp 279-282

Yudi, P., 2007. Kajian sifat fisik - mekanik dan mikrostruktur edible film alginat dan karakteristik kitosan dengan penambahan gliserol. Di dalam:

MeningkatkanDaya Saing Produk Lokal Melalui Ilmu dan teknologi untuk Menunjang Ketahanan Pangan Nasional. Prosiding Seminar Nasional PATPI:

Bandung 17 - 18 Juli 2007.

Zainuddin. 1996. Crosslinking dan Degradasi Polietilen Oksida dalam Larutan Air dengan Radiasi Sinar Gamma. Pusat Aplikasi Isotop dan Radiasi, BATAN

Zhang, Y.M., Lina, Y.T., Chenb, J.L., Zhang, J., Zhua., Z.Q., and Liu,Q.J., 2013.

A high sensitivity gas sensor for formaldehyde based on silver doped lanthanum ferrite. Sensors and Actuators B 190: 171– 176

LAMPIRAN

Lampiran 1. FTIR Kitosan

62

Lampiran 2. FTIR Kitosan terikat silang dengan Glutaraldehida

Lampiran 3. FTIR Kitosan/Grafit Eksfoliasi

64

Lampiran 4. FTIR Kitosan/Grafit Eksfoliasi terikatsilang dengan Glutaraldehida

Lampiran 5. XRD Grafit