44
DAFTAR PUSTAKA
Ahda, M., Sutarno, dan Kunarti, E.S., 2016, Studi Kinetika Adsorpsi Al-MCM 41 terhadap Metilen Biru, Pharmaciana, 6 (1), 15-20.
Alberty, R. A., 1997, Physical Chemistry,John Willey & Sons Inc., New York.
Ardhayanti, L.I., dan Santosa, S.J., 2016, Synthesis of Magnetic-Mg/Al Hydrotalcite and Its Application as Adsorbent for Navy Blue and Yellow F3G Dyes, Procedia Engineering, 148, 1382.
Bear, R., 1987, Sample Pretreatment and Separation, First Edition, John Willey and Sons, New York.
Birloaga, I., De Michelis, I., Ferella, F., Buzatu, M., dan Veglio, F., 2013, Study on The Influence of Various Factors in The Hydrometallurgical Processing of Waste Printed Circuit Boards for Copper and Gold Recovery, Waste Manage., 33, 935-941.
Budiartika, N., 2018, Studi Isoterm dan Kinetika Adsorpsi Co(II) Pada Hidroksiapatit dari Cangkang Telur Bebek, Skripsi, Program Sarjana Universitas Gadjah Mada, Yogyakarta.
Canra., M., Fadli, A., dan Kumalasari, 2005, Kinetika Adsorpsi Ion Logam Cu2+
menggunakan Tricalciumphospate sebagai Adsorben dengan Variasi Kecepatan Pengadukan Tempratur, J. Fak. Tek., 2(2), 1-6.
Cotton, F.A., Wilkinson, G., Murillo, C., dan Bachman, M., 1999, Advances Inorganic Chemistry, 6th ed., John Wiley & Sons, Inc., New York.
Cui, J., dan Zhang, L., 2008, Metallurgical recovery of metals from eletronic waste: a review, J. Hazard. Mater., 158, 228-256.
Desta, M.B., 2013, Batch Adsorption Experiments: Langmuir and Freundlich Isotherm Studies fo Adsorption of Textile Metal Ions Onto Straw (Eragrotis tef) Agricultural Waste, J. Thermodyn., 375, 1-6.
Ekka, Y., 2019, Sintesis Hidroksiapatit dari Cangkang Telur Bebek Sebagai Adsorben Ion Cu(II), Skripsi, Program Sarjana Universitas Gadjah Mada, Yogyakarta.
Falah, I.I., Ruliatima, dan Triyono, 2015, Reversible Seconf Order Kinetics of Sorption-Desorption of Cr(VI) Ion on Activated Carbon Palm Empty Fruit Bunches, Indones. J. Chem., 15(3), 288-194.
Figuerido, M.M., Gamelas, J.A.F., dan Martins, A.G., 2012, Characterization of Bone and Bone-Based Graft Materials Using FT-IR Spectroscopy, In Theophanides, Infrared Spectroscopy-Life and Biomedical Science, 315- 334.
Gardea-Torresdey, J. L., Parsons, J. G., Gomez, E., Peralta-Videa, J., Troiani, H.
E., Santiago, P., dan Yacaman, M. J., 2002, Formation and Growth of Au Nanoparticles inside Live Alfalfa Plants, Nano Lett., 2 (4), 397-401.
Ghahremani, D., Mobasherpor, L., Salahi, E., Ebrahimi, M., Manafi, S., dan Keramatpour, L., 2017, Potential of Nano Crystalline Calcium Hydroxyapatite for Tin(II) Removal from Aqueous Solutions: Equilibria and Kinetic Processes, Arab. J. Chem., 10, 461-471.
Gintu, A.R., Santoso, U.P., Nurmasari, R., dan Yunus, R., 2017, Sintesis Biokeramik Hidroksiapatit (HAp) dari Cangkang Telur Ayam Kampung, Ayam Broiler, dan Bebek menggunakan Metode Pengendapan Basah dan Hidrolisis, Brushit, Bioma, 6(2), 1-10.
Hamamoto, K., Kawakita, H., Ohto, K., dan Inoue, K., 2009, Polymerization of phenol derivatives by the reduction of gold ions to gold metal, React.
Funct. Polym., 69, 694-697.
Hamidi, A.A., Salimi, M.N., dan Yossof, A.H.M., 2017, Synthesis and Characterization of Eggshell-Derrived Hydroxyaphatite via Mechanochemical method: A Comparative Study, AIP Conference Procceding, 1835, 20 – 45.
Handayani, K., 2012, Studi Kinetika Adsorpsi Au(III) Oleh Kulit Salak (salacca zalacca) Termodifikasi Asam Sulfat, Skripsi, Program Sarjana, Universitas Gadjah Mada, Yogyakarta.
Jadhav, U., dan Hocheng, H., 2012, A review of recovery of metals from idustrial waste, J. Achiev. Mater., 54, 159-167.
Jin, X., Bailey, G.W., Yu, Y.S., dan Lynch, A.T., 1996, Kinetics of Single Multiple Metal Ion Sorption Processes on Humic Substances, Soil Sci., 8, 209-520.
Keenan, C.W., 1999, Kimia Untuk Universitas, Erlangga, Jakarta.
Khandelwal, H., dan Prakash, S., 2016, Synthesis and Characterization of Hydroxyaphatite Powder by Eggshell , J. Miner. Mater. Charact, 4, 119- 126.
Laonopakul, T., 2015, Synthesis of Hidroxyapatite from Biogenic Waste, KKU Eng. J., 42(3), 269-275.
LeGeros, R.Z., 1993, Dense Hydroxyapatite, World Scientific Publishing Co.,London, 144.
Liao, D., Zheng, W., Li, X., Yang, Q., Yue, X., Guo, L., dan Zeng, G., 2010, Removal of Lead(II) from Aqueous Solution and Electroplating Wastewater using Fungal Biomass, J. Chem. Eng., 135. 202-208.
Mahreni dan Sulistyawati, E., 2011, Pemanfaatan Kulit Telur sebagai Katalis Biodesel dari Minyak Sawit dan Metanoll, Seminar Rekayasa Kimia dan Proses, C-09.
Marwati, S., 2009, Kajian Tentang Kandungan Logam-logam Berharga Dalam Limbah Elektronik (E-Waste) dan Teknik Recoverynya Melalui Proses Daur Ulang, Prosiding Seminar Nasional Penelitian, Pendidikan dan Penerapan FMIPA UNY, Yogyakarta.
Mattel, C. L., 1991, Adsorption, 2nd Ed, McGraw-Hill Company Inc., New York.
Meski, S., Ziani, S., Khireddine, H., dan Boudboub, S., 2010, Removal of Leads Ions bu Hydroxyaphatite Prepared from the Egg Shell, J.Chem.Eng, 55, 3923-3928.
Mortada, W.L., Kenway, I.M.M., Abdelghany, A.M., Islam, A.M., Dania, A.I., dan Nabieh, K.A., 2015, Determination of Cu2+, Zn2+ and Pb2+ in Biological and Food Samples by FAAS after Procontentration with Hidroxyapatite Nanorofs Originated from Eggshell, Mater. Scie. Eng., 52, 288-296.
Muhdarina., Mohammad, A.W., dan Muchtar, A., 2014, Potensi Adsorpsi Polutan Anorganik oleh Lempung Cengar: Kajian Isoterm dan Mekanisme Adsorpsi Batch Kation Ni(II) di Dalam Media Air, Repository University of Riau, Riau, 19-28.
Naharoh, I. Z., 2018, Kajian Adsorpsi Cr(III) Pada Hidroksiapatit dari Limbah Cangkang Telur Bebek, Skripsi, Program Sarjana Universitas Gadjah Mada, Yogyakarta.
Nandi, B. K., Goswami, A., dan Purkait, M. K., 2009, Adsorption Characteristics of Brilliant Green Dye on Kaolin, J. Hazard Mater., 161, 387-395.
Paclawski, K., dan Fitzner, K., 2004, Kinetics of gold(III) chloride complex reduction using sulfur(IV), Metal. Mater. Tran. B, 35, 6, 1071-1085.
Parajuli, D., Adhikari, C. R., Kawakita, H., Yamada, S., Ohto, K. dan Inoue, K., 2009, Chestnut pellicle for the recovery of gold, Bioresour Technol., 100,1000-1002.
Pawarangan, I., 2017, Sintesis dan Karakterisasi Hidroksiapatit dari Tulang Kerbau (Bubalus Bubalis) untuk Aplikasi Biomedis, Tesis, Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta.
Pongtonglor, P., Hoonnivathana, E., Limsuwan, S., dan Naemchantara, K., 2010, Utilization of Waste Eggshells as Humidity Adsorbent, J. Appl. Sci., 1812-5654.
Prasasti, D., 2011, Studi Adsorpso Reduksi ion Au(III) Pada Asam Humat, Asam Humat Teresterifikasi, dan Asam Humat Tereterifikasi, Tesis, Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta.
Qu, R., Sun, C., Wang, M., Ji, C., Zhang, Y., Wang, C., Chen, H., dan Ying, P., 2009, Adsorption of Au(III) from Aqueous Solution Using Cotton Fiber/Chitosan Composite Adsorbents, Hydrometallurgy, 100, 65-71.
Rajurkar, N.S., Gokam, A.M., dan Dimya, K., 2011, Adsorption of Chromium(III), Nickel(II), and Copper(II) from Aqueous Solution by Activated Alumina, Clean Soil, Air, Water, 39(8), 767-773.
Ramesh, A., Hasegawa, H., Sugimoto, W., Maki, T., dan Ueda, K., 2008, Adsorption of Gold(III), Platinum(IV) and palladium(II) onto glycine modified crosslinked chitosan resin, Bioresour. Technol., 99, 3801-3809.
Ramos, S. N., Do, C., Xavier, A. L., Teodoro, F. S., Gil, L. F., dan Gurgel, L. V.
A., 2016, Removal of Cobalt(II), Copper(II), adn Nickel(II) Ion from Aqueous Solutions using Phtalate Functionalized Sugarcane Bagasse:
Mono and Multicomponent Adsorption in Batch Mode, Ind. Crops Prod, 79, 116-130.
Rosskopfova, O., Galambos, M., Ometakova, J., Aplovicova, M.C., dan Rajec, P., 2012, Study of Sorption processes of Copper on synthetic Hidroxyapatite, J Radioanal Nucl Chem, 293, 642.
Rubcumintara, T., 2014, Adsorptive Recovery of Au(III) from Aqueous Solution Using Modified Baggase Biosorbent, Int. J. Chem. Eng. App., 6, 95-100.
Rujitanapanich, S., Kumpapan, P., dan Wanjanoi, P., 2014, Synthesis of Hydroxyapatite from Oyster Shell via Precipitation, Energy Procedia, 56, 112-117.
Saleha., 2015, Sintetis dan Karakterisasi Hidroksiapatit dari Nanopartikel Kalsium Oksida (Cao) Cangkang Telur untuk Aplikasi Dental Implan, prosiding Pertemuan Ilmiah XXIX HFI Jateng dan DIY, 25 April 2015, Yogyakarta.
Sheha, R.R., 2007, Sorption Behaviour Zn(II) Ions on Synthesized Hydroxyaphatite, J. Colloid Interf. Sci., 310, 19.
Sodhi, M.S., dan Reimer, B., 2001, Models for recycling electronics end-of-life products, OR Spektrum, 23, 97-115.
Stumm, W., dan Morgan, J.J., 1996, Aquatic Chemistry, 3rd Ed, John Willey &
Sons Inc., New York.
Sudiono, S., 2017, Aspek Termodinamika dan Kinetika Pada Adsorpsi Kimia Au(III) oleh Asam Humat dan Asam Humat Tereterifikasi, Disertasi, Program Pascasarjana Universitas Gadjah Mada, Yogyakarta.
Sulistyo, T., 2010, Aplikasi Polifenol dari Elektrolisis Asap Cair Tempurung Kelapa Untuk Adsorpsi AuCl4-, Skripsi, Program Sarjana Universitas Gadjah Mada, Yogyakarta.
Suratmi, 2017, Sintesis Komposit Manik Kitosan/Goetit/Abu Layang Ampas Tebu untuk Adsorpsi [AuCl4]-, Tesis, Program Pascasarjana Universitas Gadjah Mada, Yogyakarta
Suryadi, 2011, Sintesis dan Karakterisasi Biomaterial Hidroksiapatit dengan Proses Pengendapan Kimia Basah, Tesis, Fakultas Universitas Indonesia, Depok
Suryadi, 2011, Sintesis dan Karakterisasi Biomaterial Hidroksiapatit dengan Proses Pengendapan Kimia Basah, Tesis, Fakultas Universitas Indonesia, Depok.
Syed, S., 2012, Recovery of Gold from Secondary Sources, Hydrometallurgy, 115-116, 30-51.
Tandi, E., Hasibuan, I.F., dan Harahap, H., 2012, Kemampuan Adsorben Limbah Lateks Karet Alam Terhadap Minyak Pelumas Dalam Air, J. Tek. Kim., 1(2), 34-38.
Tsai, W.T., Yang, J.M., Lai, C.W., Cheng, Y.H., Lin, C.C., dan Yeh, C.W., 2006, Characterization and Adsorption Properties of Eggshells and Eggshells Membrane, Bio. Tech., 488-493
Umaningrum, D., Santoso, U.T., Nurmasari, R., dan Yunus, R., 2010, Kinetika Adsorpsi Pb(II), Cd(II) dan Cr(III) pada Adsorben Produk Pengikatan Silang Terproteksi Asam Humat/Kitosan, Indones. J. Chem., 10(1), 80- 87.
Utomo., 2014., Pemanfaatan Kulit Telur Ayam, Bebek, dan Burung Puyuh pada Proses Pembekuan Darah, skripsi, Fakultas Mipa Universitas Negeri Semarang.
Wang, F., Wang, J., Chen, H., dan Dong, S., 2007, Assembly Process of CuHCF/MPA Multylayers on Gold Nanoparticles Modified Electrode and Characterization by Electrochemical SPR, J. Electroanal. Chem., 600, 265-274.
Wang, L., Halqing, Song, L., Huahua, Y., Pengcheng, L., dan Range, X., 2012, Adsorption Properties of Gold onto a Chitosan Derrivative, Int. J. Biol Macromol., 51, 701-704.
Wang, S., Qian, K., Bi, X., dan Huang, W., 2009, Influence of Speciation of Aqueous HAuCl4- on the synthesys, Structure, and Property of Au Colloids, J. Phys. Chem. C, 113, 6505-6510.
Weng., C. H., Sharma, Y. C., dan Chua, S.H., 2007, Adsorption of Cr (VI) from Aqueous Solutions by Spent Activated Clay, J. Hazard. Mater., 155, pp, 65-75.
Wihadi, 2014, Hidrotalist Mg-Al-NO3 Sebagai Adsorben Untuk Pungut Ulang Logam Emas dari Larutan [AuCl4]-, Tesis, Program Pascasarjana Universitas Gadjah Mada, Yogyakarta.
Wu, L., Forsling, W., dan Schindler, P.W., 1991, Surface Complexation of Calcium Minerals in Aqueous Solutions. 1. Surface Protonation of Fluoroapatite Water Interfaces, J. Colloid Inter. Sci., 147, 178-185.
Yahaya, N.K.E., Latiff, M.F.P.M, Abustan, I., Bello, O.S. dan Ahmad, M.A., 2011, Adsorptive Removal of Cu(II) using Activated Carbon Prepared from Risk Husk by ZnCl2 Activation and Subsequent Gasification with CO2, Int. J. Eng. Technol., 11(1), 207-211.
Yu, J., Williams, E., dan Ju, M., 2009, Review and prospects of recyclinh methods for waste printed circuit boards, Sustainable system and technology, ISST ’09. In: IEEE International Symposium, Phoenix, AZ, pp.1-5.
