DOI: https://doi.org/10.14710/jksa.9.3.60-64

Pengaruh Konsentrasi Ca2+ dan (PO4)3- pada Pembentukan Hidroksiapatit di dalam Matriks Selulosa Bakterial

Chemistry Department, Faculty of Sciences and Mathematics, Diponegoro University, Indonesia

Published: 1 Dec 2006.
Open Access Copyright 2006 Jurnal Kimia Sains dan Aplikasi under http://creativecommons.org/licenses/by-sa/4.0/.

Citation Format:
Abstract
Pembentukan hidroksiapatit Ca10(PO4)6(OH)2 dalam matriks selulosa bakterial dilakukan dengan cara merendam selulosa bakterial dalam larutan CaCl2 selama 18 jam, dilanjutkan dengan merendam dalam larutan KH2PO4 selama 18 jam pada pH 9. Perendaman tersebut dilakukan dengan berbagai variasi konsentrasi Ca2+ dan PO42-. Kadar kalsium yang terdeposit dalam selulosa bakterial dianalisis dengan AAS. Kadar fosfat dianalisis dengan Stannous Chloride methode dan untuk mengetahui apakah kalsium fosfat yang terdeposit membentuk struktur hidroksiapatit, dilakukan analisis dengan difraksi sinar X. Difraktogram sinar X menunjukkan telah terbentuk struktur hidroksiapatit dalam matriks selulosa bakterial dan rasio ideal C/P hidroksiapatit sebesar 1,676 terjadi pada perbandingan Ca2+: PO43- = 125 : 25.
Fulltext View|Download
Keywords: hidroksiapatit; selulosa bakterial

Article Metrics:

Article Info
Section: Research Articles
Language : ID
Recent articles
Identifikasi Senyawa Penyusun Minyak Kulit Batang Kayu Manis (Cinnamomum cassia) Menggunakan GC-MS Amobilisasi Enzim Bromelin dari Bonggol Nanas dengan Bahan Pendukung (Support) Karagenan dari Rumput Laut (Euchema cottonii) Pengaruh Bahan Elektrode pada Pengambilan Cu dan Cd secara Elektrokimia More recent articles
Most cited articles
Antioxidant Activity of Daemonorops draco Resin Interlayer-free Silica Pectin Membrane for Wetland Saline Water via Pervaporation Molecular Docking of Interaction between E-Cadherin Protein and Conformational Structure of Cyclic Peptide ADTC3 (Ac-CADTPC-NH2) Simulated on 20 ns Pengaruh Perlakuan Asam dan Kalium Permanganat terhadap Karakter Zeolit Tasik Sintesis Lempung Terpilar Polikation Alumunium Sebagai Adsorben Indigo Karmina More cited articles
  1. Aizawa, M., 1999, Characaterization of Hydroxyapatite Powders Prepared By Ultrasonic Spray-Pyrolysis Technique, Journal of Material Science, 34, p. 2865-2873
  2. Bilmeyer, F. W., 1984, Textbook of Polymer Science, 3rd edition, John Wiley & sons, New York
  3. Brown, Jr., 1983, Production of a Cellulose-Synthetic Polymer Composite Fiber, United States Patent 4,378,431, March 29
  4. Chang, R. W., Hansen, P., and Kraner, E. J., 1992, Material Science and Technology (Comprehensive Treatment), 14
  5. Hutchens, S. A., Woodward, J., Evans, B. R., and O’Neil, H. M., 2004, Composite material, United States Patent 20040096509, May 20
  6. Narasaruju, T. S. B., and Phebe, D. E, 1996, Some Physico-Chemical Aspect of Hidroksiapatite, Journal of Material Science, 31, p. 1-21
  7. Nishi, Y, 1990, The Structure and Mechanical Properties of Sheets Prepared From Bacterial Cellulose, Journal of Material Sciense 25, p. 2997-3001
  8. Ratner, M., Ratner, D., 2003, Nanotechnology: a Gentle Introduction to the Next Big Idea, Prentice hall PTR, New Jersey
  9. Sopyan, I., Arianti, M., Alhamidi, A.A., 2002, Pengembangan Serbuk Hidroksiapatit untuk Aplikasi Medis: Karakterisasi Awal dengan FTIR dan XRD, Prosiding Pertemuan Ilmiah IPTEK Bahan’02, 22-23 Oktober 2002, Serpong
  10. Ward, I. M., Sweeney, J., 2004, An Introduction to the Mechanical Properties of Solid Polymers, John Wiley and sons, England
  11. Wojciech, S and Yoshimura, M., 1998, Processing Properties of Hidroxyapatit Based- Biomaterials for Use as Hard Tissue Replacement Implants, Journal of Material Science, 13, p. 95-116
  12. Yamanaka, 1989, J. Mat. Sci 24, p. 3141-3145
  13. Yamane, C., Okajima, K., and Otsuka, M., 2004, Novel Cellulose-Type Material, United States Patent 20040267006, Desember 30

Last update:

  1. The Effect Of Immersion Time Variation in Polyvynyl Piprolidone Against Characteristics Of Scaffold Biocomposit Of Bacterial-Hydrocysiatatic Cellulose as Candidate

    Ludita Indrio. Journal of Stem Cell Research and Tissue Engineering, 2 (2), 2019. doi: 10.20473/jscrte.v2i2.11893

  2. The Effect of Poly (Vynil Pyrrolidine) (PVP) Added in Variation of Ca2+ and PO43- Concentration in Microbial Cellulose-Hydroxyapatite Composite As Scaffold For Bone Healing

    Disca Sandyakala. Journal of Stem Cell Research and Tissue Engineering, 3 (2), 2020. doi: 10.20473/jscrte.v3i2.20358

  3. Synthesis of CPC/chitosan and its endurance test in simulated body fluid

    Tri Windarti, Kartika Eka, Fitria Kusumawati. IOP Conference Series: Materials Science and Engineering, 509 , 2019. doi: 10.1088/1757-899X/509/1/012148

  4. Synthesis of β-TCP by sol-gel method: variation of Ca/P molar ratio

    Tri Windarti, Adi Darmawan, Ana Marliana. IOP Conference Series: Materials Science and Engineering, 509 , 2019. doi: 10.1088/1757-899X/509/1/012147

  5. A Polycaprolactone‐Hydroxyapatite (PCL/HAp) Scaffold, Prepared from Blue Crab Shell (Portunus Pelagicus) Waste, for Bone Substitution Applications

    Eva Oktavia Ningrum, Imam Safari Azhar, Wirawan Ciptonugroho, Sumiyyah Sabar, Suprapto Suprapto, Achmad Dwitama Karisma, Michael Josef Kridanto Kamadjaja, Tamita Anggi Margaretha, Nakhwah Ulayya Khoirummata'Addunya, Sinung Widiyanto. ChemistrySelect, 9 (24), 2024. doi: 10.1002/slct.202303971

Last update: 2024-11-20 15:45:07

No citation recorded.