Perlu dilakukan penelitian lebih lanjut tentang stabilitas dan ketahanan membran PIM dengan menggunakan garam pada fasa penerima untuk transpor fenol.
DAFTAR PUSTAKA
Alva, V. A. and B.M Peyton. 2003. Phenol and Catechol Biodegradation by the Haloalkaliphile Halomonas Campisalis Influence of pH and Salinity.
Enviromental Science & Technology. 37(19):4397-4402.
Amand, L.A. and C.J. Tullin. 1999. The Theory Behind FTIR
Analysis:Application Examples From Measurement at the 12 MW Circulating Fluidized Bed Boiler at Chalmers. Dept. of Energy Conversion ChalmersUniversity of Technology. Gitenborg, Sweden.
Aprilia, Rulan. 2019. Studi Stabilitas dan Kemampuan Transpor Fenol
Menggunakan Kopoli (Eugenol Dialil Ftalat) sebagai Senyawa Pembawa dengan Metode Polymer Inclusion Membrane (PIM). Skripsi. Universitas Lampung.
Cho, Y., W, Robert, Cattrall, Kolev, D.S. 2018. A Novel Polymer Inclusion Membrane Based Method for Continous Clean-up of Thiocynate from Gold Mine Tailings Water School of Chemistry. The Univercity of Melbourne. Victoria. 3010. Austalia.
Cholid, M. 2016. Adsorpsi Selektif Molekular Fenol oleh Polieugenol. Disertasi.
Universitas Gadjah Mada.
Cleij, M.C., P. Scrimin., P. Tecilla., and U. Tonellato. 1997. Efficient and Highly Selective Copper (II) Transport Across a Bulk Liquid Chloroform
Membrane Mediated by Liphophilic Dipeptides. Journal of Organic Chemistry. 62:5592-5599.
Danesi, P. R. 1984. Separation of Metal Species by Supported Liquid Membranes, Sep. Sci. Technol., 19 (11-1): 857-894.
Day, R.A., dan Underwood, A.L. 1986. Analisis Kimia Kuantitatif Edisi Kelima.
Penerbit Erlangga, Jakarta.
Dzygiel, P., and P. Wieczorek. 2010. Stereoselective Transport of Amino Acids and Peptides Through Liquid Membranes. Journal of Chemistry., In 33.
EPA, U., 2002. Toxicological Review Phenol. USA.
Febriany, Y. 2010. Kuat Tekan Keramik Berbahan Dasar Feldsfer (70%-90%), Kaolin (5 % -25 %), dan Silika (5%-25%). Abstrak. Universitas Malang.
Malang.
Ferraz, G., Nichols, J. D., Hines, J. E., Stoufer, P. C., Bierregaard, R.O., Lovejoy, T. E. 2007. A Large Scale Deforestation Experiment: Effect of Patch Area and Isolation on Amazon Birds. American Association for The
Advancement of Science. 1200 New York Avenue NW. Washington DC 20005.
Gherrou, A., Kerdjoudj, H., Molinari, R., and Drioli, E. 2001. Modelization of The Transport of Silver and Copper in Acidic Thiourea Medium Throught a Supported Liquid Membrane. Desalination, 139: 317-325.
Guenther, E. 1948. The Essential Oils, Individual Essensial Oils of the Plant Familities. D. Van Nostrand. Co, Inc. New York. 4:436-437
Hamdila, J.D. 2012. Pengaruh Variasi Massa Terhadap Karakteristik
Fungsionalitas Dan Termal Komposit MgO-SiO2 Berbasis Silika Sekam Padi Sebagai Katalis. Skripsi. Universitas Lampung.
Handayani, D. S. 2001. Sintesis Poli(eugenil Sulfonat) dan Aplikasinya sebagai Katalis Asam dalam Siklisasi Sitronelal. Tesis. Universitas Gadjah Mada.
Jogjakarta.
Happy, M.R. 2012. Studi Stabilitas dan Kemampuan Transpor Fenol Menggunakan Polymer Inclusion Membrane (PIM) dengan Polimer Polieugenol Tersambung Silang Bisphenol A Diglycidyl Ether (BADGE) sebagai Membran Carrier. Skripsi. Universitas Gadjah Mada. Yogyakarta.
Harjadi, W. 1993. Ilmu Kimia Analitik Dasar. PT Gramedia Pustaka Utama, Jakarta.
Harimu, L. 2010. Sintesis Amida, Ester dan Asam Turunan Polieugenol dan Kajian Aplikasinya untuk Pengompleks Logam pada Metode Pemisahan Ekstraksi Cair-Cair dan Transpor Membran Cair. Disertasi. Universitas Gadjah Mada. Yogyakarta.
Hiratani, K., T. Hirose., K. Kasuga., and K. Saito. 1992. N-98 Quinolyl-2- Pyridylmethyl Malomanide Derivates as a Novel CU (II) Carrier. Journal of Organic Chemistry. 57:7083-7087.
Huda, N. 2001. Pemeriksaan Kinerja Spektrofotometer UV-Vis GBC 911A Menggunakan Pewarna Tartrazine CL 19140. Sigma Epsilon.1(20): 15-20.
Huidong, Z., Biyu, W., Yanxiang, W.U., and Qilong, R.E.N. 2009. Instability
Mechanisms of Supported Liquid Membrane for Phenol Transport. Chin.
J. Chem. Eng., 17(5): 750-755.
Jumina., Triwulandari, E., and Anwar, C. 2005. Synthesis of C-Methyl-4-10-16- 22- Tetramethoxycalix[4]Arena. Indonesian Journal of Chemistry, 5(1):
58-69.
Kazemi, P., Peydayeshb, M., Bandegib, A., Mohammadia, T., and Bakhtiari, O.
2014.Stability and Extraction Study of Phenolic Waste Water Treatment by Supported Liquid Membbrane Using Tributylphosphate and Sesame Oil as Liquid Membrane. Chemical Engineering Research and Design, 92:
375-383.
Khopkar, S.M. 2003. Konsep Dasar Kimia Analitik. UI Press, Jakarta.
Kislik, V.S. 2010. Liquid Membranes: Principles and Applications in Chemical Separations and Wastewater Treatment. Elsevier. Inggris.
Kiswandono, A. A. 2010. Studi Transpor Fenol dengan Menggunakan Membran Cair Polieugenol. (Prosiding Seminar Nasional). Jurusan Kimia. Fakultas Ilmu Keguruan dan Pendidikan. Universitas Sebelas Maret. Surakarta.
Kiswandono, A.A. 2014. Kajian Transpor Fenol Melalui Membran
Berbasis Polieugenol Tertaut Silang Menggunakan Metode Polymer Inclusion Membrane (PIM). Disertasi. Jurusan Kimia. Fakultas Matematika dan Ilmu Pengetahuan Alam. Universitas Gadjah Mada.
Yogyakarta.
Kiswandono, A.A., D. Siswanta, and N.H. Aprilita, S.J. Santosa.2012.Preparation of Copoly(Eugenol-DVB) as Membrane Carrier for Transport Phenol by Inclusion Polymer Membrane (PIM).Indonesian Journal of Chemistry.
12(2): 105-112.
Kiswandono, A.A.,D. Siswanta, N.H. Aprilita, S.J. Santosa, and T.
Hayashita.2013.Extending the Life Time of Polymer Inclusion Membrane ContainingCopoly(Eugenol-DVB) as Carrier for Phenol Transport.Indonesian Journal of Chemistry. 13(3): 254-261.
Kiswandono, A.A., D. Siswanta, N.H. Aprilita, S.J. Santosa, and T. Hayashita.
2014. The Capability of Copoly (Eugenol-Divinil Benzene), Co-EDVB As a Carrier of Phenol Transport with Polymer Inclusion Membrane (PIM).
Journal of Enviromentally Friendly Processes. ISSN 2328-1383 (2) : 57-68.
Kujawski, W., Warszawki, A., Ratajczak, W., Porbski, T., Capata, W., and Ostrowska, I. 2004. Removal of Phenol from Waterwate by Different Separation Technique. Desalinator, 163: 287-296.
Kurniawati, P., B. Wiyantoko., dan T.E. Purbaningtias. 2017. Adsorpsi Fenol
dengan Hidrotalsit Mg/Al 4:1 Termodifikasi Sodium Dodecylsulfate (SDS) In Situ dan Ex Situ. FMIPA, Universitas Islam Indonesia, Yogyakarta. 6(1):
2548-8570.
Kusumastuti, A. 2007. Pemulihan Fenol dari Air Limbah dengan Membran Cair Emulsi. Tesis. Institut Teknologi Bandung. Bandung.
Kozlowski, C. 2006. Facilitated Transport of Metal Ions Through Composite and Polimer Inclusions Membranes. Desalination, 198: 132-140.
Metcalf and Eddy, 2004, Wastewater Engineering, 4th edition, Mc Graw Hill International Editions, New York.
Misran. 2002. Aplikasi Teknologi Berbasis Membran dalam Bidang Bioteknologi Kelautan. Laporan Penelitian. Program Teknik Kimia Fakultas Teknik USU. Medan.
Molva, M. 2004. Thesis Removal of Phenol from Industrical Wastewaters Using Lignitic Coals. Izmir Institute of Technology Izmir. Turkey.
Mozhdehvari, H., Tabatabaei, S.M., and Tajkhalili, A. 2009. Catalytic Ozonation of Phenol Occurring in Power Plants Oily. Waste Water 24th International Power System Conference.
Muktiarti, N. 2011. Transpor Fenol Melalui Supported Liquid Membrane (SLM) Berbasis Polyvinil Chloride (PVC) Menggunakan Kopoli (Eugenol-DVB) sebagai Molekul Carrier. Skripsi. Jurusan Kimia Universitas Gadjah Mada.
Yogyakarta.
Nadavala, S.K., Che Man H., and Woo H.S. 2014. Bioasorption of Phenolic Compounds from Aqueos Solutions using Pine (Pinus Densiflora Sieb) Bark Powder. 9(3):5155-74.
Nghiem, L.D., P. Mornane., I.D. Potter., J.M. Perera., R.W. Cattrall., and S.D.
Kolev. 2006. Extraction and Transport of Metal Ions and Small Organic Compounds Using Polymer Inclusion Membrane.Review. Journal Membrane Science. 281:7-41.
Nusantari, Candra Saka. 2020. Sintesis dan Evaluasi Kopoli (Eugenol-Divinil Benzena) 4% sebagai Senyawa Pembawa untuk Transpor Fenol
menggunakan Metode Polymer Inclusion Membrane (PIM). Tesis. Jurusan Magister Kimia. Universitas Lampung
Park, Y., Skelland, A.H.P., Forney, L.J., and Kim, J.H. 2006. Removal of Phenol and Substitued Phenols by Newly Developed Emulsion Liquid Membrane Process. Water Res., 40: 1763-1772.
Pont, N., Salvado, V., and Fontas, C. 2008. Selective Transport and Removal of
Cd from Chloride Solutions by Polymer Inclusion Membranes. J. Membr.
Sci., 318: 340-345
Reis, M.T.A., de Freitas, O.M.F., Ismael, M.R.C., and Carvalho, J.M.R. 2007.
Recovery of Phenol from Aqueous Solutions Using Liquid Membranes with Cyanex 923. J. Membr. Sci., 305: 313-324.
Sentrurk, H. B., Ozdes, D., Gundogdu, A., Duran, C ., & Soylak, M. (2009).
Removal of phenol from aqueous solutions by adsorption onto
organomodified tirebolu bentonite: Equilibrium, kinetic and thermodynamic study. J. Hazard. Mater., 172, 353-362
Slamet., S. Bismo., A. Arbianto., dan Z. Sari. 2006. Penyisihan Fenol dengan Kombinasi Proses Adsorpsi dan Fotokimia Menggunakan Karbon Aktif dan TiO2. Journal Teknologi. 4:3-11.
Smallman, R.E. 2000. Metalurgi Fisik Modern, Edisi Keempat. PT Gramedia Pustaka Utama. Jakarta.
Sousa, A.R., and Trancoso, M.A. 2009. Validation of An Environmental Friendly Segmented Flow Method for The Determination of Phenol Index in Waters as Alternative to The Conventional One. Talanta, 79: 796-803.
Stanisavljevi, M. and L. Nedi. 2004. Removal of Phenol from Industrial Wastewaters by Horseradish (Choclearia armoracia L) Peroxidase.
Working and Living Environmental Protection. 2:243-349.
Strečková, M., Sopčák, T., Medvecký, L., Bureš, R., Fáberová, M., Batko., and Briančin, J. 2012. Preparation, Chemical&Mechanical Properties of Microcomposite Materials Based on Fe Powder & Phenol-Formaldehyde Resin. Chemical Engineering Journal, 180: 343–353.
Sunarsih, Fitri. 2019. Sintesis Kopoli-Eugenol Etilen Glikol Dimetakrilat (Ko- EEGDMA) sebagai Senyawa Pembawa Pada Transpor Fenol menggunakan Metode Polymer Inclusion Membrane (PIM). Skripsi. Universitas Lampung.
Lampung.
Szpakowska, M., Nagy, O.B., 1997. Stability of Supported Liquid Membranes Containing Acorga P-50 as Carrier, J. Membr. Sci., 129: 251-261.
Takeuchi, H, Takahashi, K., and Goto, W. 1989. Some Observation on the Stability of Supported Liquid Membranes, J. Membr. Sci., 34: 19-29.
Thermo, N. 2001. Introduction to Fourier Transform Infrared Spectrometry.
Thermo Nicolet Corporation, USA