Characterization of Hydroxyapatite of Chicken Eggshells Composite with Gelatin as Methylene Blue Absorbent

  • Nurfadillah Department of Chemistry Faculty of Science and Technology Universitas Islam Negeri Alauddin Makassar
    (ID)
  • Kurnia Ramadani UIN Alauddin Makassar
    (ID)
  • Firnanelty UIN Alauddin Makassar
    (ID)
  • Sitti Chadijah Department of Chemistry Faculty of Science ang Technology Universitas Islam Negeri Alauddin Makassar
    (ID)
  • Aisyah Aisyah Department of Chemistry Faculty of Science ang Technology Universitas Islam Negeri Alauddin Makassar
    (ID)
  • Asriani Ilyas
    (ID)
  • Arfiani Nur Department of Chemistry Faculty of Science ang Technology Universitas Islam Negeri Alauddin Makassar
    (ID)
  • Syarifah Rabiatul Adawiah
    (ID)
  • Titik Andriani UIN Alauddin Makassar
    (ID)
Keywords: Eggshel, Gelatin, Hydroxiapatite, Composite, Methylene blue

Abstract

Chicken egg shells contain an inorganic element (CaCO3) which has potency to be a source of calcium hydroxide (Ca(OH)2) which is then reacted with diammonium hydrogen phosphate ((NH4)2HPO4) as a phosphate precursor for hydroxyapatite synthesis. This study aims to determine the characterization of hydroxyapatite from eggshells and determine the absorbability of hydroxyapatite-gelatin composites against methylene blue. Synthesis of hydroxyapatite used precipitation method. The calcination results obtained calcium hydroxide (Ca(OH)2) content in the shell of 68.3%. Analysis of hydroxyapatite with Fourier Tranform Infra-Red (FT-IR) there was a wavenumber of 3434 cm-1 perform hydroxyl groups (-OH-), 1421 cm-1 carbonate groups (-CO3-2) and 1035 cm-1, 604 cm-1, 471 cm-1 phosphate groups (-PO4-2), and analysis by x-ray diffraction revealed that pure hydroxyapatite crystals had formed at an angle of 2Ɵ = 34,08 with crystallinity of 100%. The peaks that appear on the XRD diffractogram are adjusted to the Joint Committee on Power Diffraction Standards (JCPDS) No. 09-0432. The synthesis of HAp-gelatin composites obtained typical groups such as, amine groups from gelatin and phosphate groups and carbonates from Hap. The results of methylene blue absorption using hydroxyapatite-gelatin composites have obtained optimum conditions at a ratio of 2: 4 for 240 minutes with an efficiency of 63%. Based on these data, it reveals that the longer the time given, the greater the methylene blue absorbed

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References

Anggarayanti,N.L.E, Simpen, I.N dan Suastuti, N.G.A.M.D.A. 2017. Sintesis dan Karakterisasi Komposit Kaolin-Cr2O3 serta Pemanfaatannya sebagai Fotokatalis dalam Mendegradasi Zat Warna Remazol Brilliant Orange. Kimia 11, no. 1 : 23-29.
Aspama, R. dan Yanti, P.H. 2020. Sintesis dan Uji Absorbsi Metilen Biru pada Komposit Hidroksiapatit-Gelatin (K-HAp/Gel) melalui Variasi Massa Adsorben. Skripsi. Riau: Fakultas Matematika dan Ilmu Pengetahuan Alam, Universitas Riau.
Erdawati. 2012. Adsorpsi Eosin Y dari Larutan Berair dengan menggunakan Kolum Kitosan Hidroksiapatit. JRSKT 2, no. 2: 188-194.
Fatma, Desnelli, Riyanti, F., Kamal, M., Mannan, M.R.A. and Hariani, P.L. 2021. Effect of Silica Addition on Mechanical Properties of Eggshell-Derived Hydroxyapatite. Aceh International Journal of Science and Technology 10 no. 2: 128-138.
Firnanelty, Sugiarti, S. dan Charlena. 2017. Synthesis Of Hap-Chitosan-Pva Composite As Injectable Bone Substitute Material. Rasayan J. Chem 10, no. 2: 570-576.
Gago, J. dan Ngapa, Y.D. 2021. Pemanfataan Cangkang Telur Ayam sebagai Material Dasar dalam Sintesis Hidroksiapatit dengan Metode Presipitasi Basah. Indonesian E-Journal of Applied Chemistry 9, no. 1: 29-34.
Haris, A, Fadli, A. dan Yenti, S.R. 2016. Sintesis Hidroksiapatit dari Limbah Tulang Sapi menggunakan Metode Presipitasi dengan Variasi Rasio Ca/P dan Konsentrasi H3PO4. Jom Fteknik 3, no. 2: 1-10.
Herawati, D., Santoso, S.D dan Amalina, I. 2018. Kondisi Optimum Adsorpsi-Fluidisasi Zat Warna Limbah Tekstil Menggunakan Adsorben Jantung Pisang”. Sain Health 2, no. 1: 1-7.
Khalid, M., Jikan, S.S.B.J., Adzila, S., Murni, Z., Badarulzaman, N.A., Rosley, R. and Hameed, M.U. 2022. Synthesis and Characterizations of Hydroxyapatite using Precursor Extracted from Chicken Egg Shell Waste. Biointerface Research in Applied Chemistry 12, no. 4: 5663-5671.
Lindawati, Z. dan Cahyaningrum, S.E. 2018. Pengaruh Komposisi Hidroksiapatit/Kitosan/ Kolagen terhadap Karakteristik Bonegraf. UNESA Journal of Chemistry 7, no. 3: 100-104.
Mawadara, P. A., Martha, M. dan Trisnawaty. K. 2016. Pengaruh Penambahan Hidroksiapatit dari Cangkang Telur Ayam terhadap Kekerasan Permukaan GIC. Material Kedokteran Gigi 2, no. 5: 8-14.
Milla, L.M. dan Decky, J.I. 2016. Hidroksiapatit, Alginat dan Kitosan sebagai Bahan Scaffold Tulang: Studi Spektroskopi. Dentika Dental Journal 19, no. 2: 93-96.
Monica, Silvia. 2015. Sintesis dan Pencirian Komposit Hidroksiapatit-Gelatin dengan Presipitasi Basah Secara In-Situ dengan Ex-Situ. Skripsi. Bogor: Fakultas Matematika dan Ilmu Pengetahuan Alam, Institut Pertanian Bogor.
Negara, I.M.S. dan Nengah, S. 2018. Karakteristik Hidroksiapatit Hasil EkstraksiTermal dari Tulang Limbah dan Aplikasinya untuk Absorbsi Ion Selektif Biru Metilen. Cakra Kimia 6, no. 2: 123-130.
Pandharipande, S.L dan Soondawale, S.S. 2016. Synthesis op Hydroksyapatite from Egg Shell anda Preparation of Bone Like Bio-composite Using it. Internasional Journal of Advanced Information Science and Technologgy 52, no. 52: 36-47.
Peungsamran, N., Jitlada, C, and Apisit, P. 2018. Synthesis and Characterization of Hydroxyapatite from Biowaste Eggshells for Medical Application. International Journal of Advances in Science Engineering and Technology 6, no. 2: 49-51.
Pu’ad, N.A.S, Alipal, J., Abdullah, H.Z., Idril, M.I. and Lee, T.C. 2020. Synthesis of Eggshell Derived Hydroxyapatite Via Chemical Precipitation and Calcination Method. Materials Today: Proceedings 30 : 1-7.
Puspita, F.W. dan Sari, E.C. 2017. Sintesis dan Karakterisasi Hidroksiapatiti dari Cangkang Telur Ayam Ras (Gallus Gallus) menggunakan Metode Pengendapan Basah. UNESA Journal of Chemistry 6, no. 1: 100-106.
Rahayu, U., Yelmida, A. dan Padil. 2021. Kinetika Adsorpsi Zat Warna Direct Brown Menggunakan Hidroksiapatit dengan Variasi Dosis Adsorben dan Ph Larutan. Teknik Kimia 5, no. 1: 8-19.
Riano, R., Sulistioso, G.S., Bambang, S., Yessie, W.S dan Akhiruddin, M. 2022. Karakterisasi Sifat Listrik dan Sifat Termal Hidroksiapatiti, Fluorhidroksiapatit dan Fluorapatit. Al-Azhar Indonesia Seri Sains dan Teknologi 7, no. 2:147-154.
Sausan, F.W., Ainun, R.P dan Dian, Y.P. 2021. Studi Literatur Pengolahan Warna pada Limbah Cair Industri Tekstil menggunakan Metode Proses Adsorpsi, Filtrasi dan Elektrolisis. Tecnoscienza 5, no. 2: 213-230.
Setiawan, H., Umi, F, A., Dedek, Y.P., Nur, A., Atiek, R.N dan Solihudin. 2020. Biokomposit Hdroksiapatit dari Cangkang Telur Ayam dan Biochar dari Sekam Padi sebagai Adsorben Ion Tembaga dan Metilen Biru. Keramik dan Gelas Indonesia 29, no. 1: 1-14.
Suci, I.A dan Yulius, D.N. 2020. Sintesis dan Karakterisasi Hidroksiapatit (HAp) dari Cangkang Kerang Ale-Ale menggunakan Metode Presipitasi Double Stirring. Cakra Kimia 8, no. 2: 73-81.
Suprianto, K., Hidayati, Cytha, N., Nurul, K., Ratu, A., dan Siti, R. 2019. Hidroksiapatit dari Cangkang Telur sebagai Bone Graft yang Potensial dalam Terapi Peiodontal. Clinical Dental Journal 5, no. 3: 76-85.
Trivana, L., Sri, s. dan Eti R. 2015. Intesis Zeolit dan Komposit Zeolit/TiO2 dari Koalin Serta Uji Absorbsi-Fotodegradasi Biru Metilena. Penelitian Kimia 11, no. 2: 147-162
Published
2023-12-28
How to Cite
Nurfadillah, Ramadani, K., Firnanelty, Chadijah, S., Aisyah, A., Ilyas, A., Nur, A., Adawiah, S. R., & Andriani, T. (2023). Characterization of Hydroxyapatite of Chicken Eggshells Composite with Gelatin as Methylene Blue Absorbent. Al-Kimia, 11(2). https://doi.org/10.24252/al-kimia.v11i2.40781
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Article
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