DAFTAR PUSTAKA

(1)

DAFTAR PUSTAKA

Adams, B. R., Mostafa, A., Schwartz, Z., dan Boyan, B. D. 2014. Osteoblast response to nanocrystalline calcium hydroxyapatite depends on carbonate content.

Journal of Biomedical Materials Research - Part A, 102 (9), 3237–3242.

Anggraini, R. M., Supii, A. I., Suparta, G. B., dan Yusuf, Y. 2019. The effect of ph on the characteristics of carbonate hydroxyapatite based on pearl shell (Pinctada maxima). Key Engineering Materials, 818 (1), 44–49.

Anggresani, L., Perawati, S., Diana, F., dan Sutrisno, D. 2020. Pengaruh Variasi Perbandingan Mol Ca / P Pada Hidroksiapatit Berpori Tulang Ikan Tenggiri (Scomberomorus guttatus ) pembuatan implan karena kesamaannya Tulang ikan Tenggiri ( Scomberomorus. 12(1), 55–64.

Anward. Giovanni., Y. Hidayat dan Nur. R. 2013. Pengaruh Konsentrasi Serta Penambahan Gliserol Terhadap Karakteristik Film Alginat Dan Kitosan. journal Teknik kimia. 14(2). 51-56.

Asa. Faiq Nadiatul Mardiasa et al., 2016. Komposit Kolagen Fibril-Alginat. 18(2): 113- 125.

Astriana, B. H., Eka Larasati, C., dan Perdana Putra, A. 2022. Persepsi Masyarakat Terhadap Pemanfaatan Kerang Darah Di Kawasan Mangrove Desa Cemara, Kabupaten Lombok Barat. Jurnal Perikanan Unram, 12(2), 138–148.

Balgies. (2011). Sintesis dan Karakterisasi Hidroksiapatit dari Cangkang Kerang.

Departemen Fisika FAkultas MIPA IPB, Bogor.

Buasri, A., Chaiyut, N., Loryuenyong, V., Worawanitchaphong, P., dan Trongyong, S.

2013. Calcium oxide derived from waste shells of mussel, cockle, and scallop as the heterogeneous catalyst for biodiesel production. The Scientific World Journal.

200(1): 1-7.

Bui, X. ., dan Thang, T. . 2016. Synthesis of Biphasic Calcium Phosphate and its Behaviour in Simulated Body Fluid. ASEAN Journal on Science and Technology for Development, 33(2), 38.

Bulina, N. V., Makarova, S. V., Baev, S. G., Matvienko, A. A., Gerasimov, K. B., Logutenko, O. A., dan Bystrov, V. S. 2021. A study of thermal stability of

(2)

hydroxyapatite. Minerals, 11(12), 1–15.

Clegg, W. (n.d.). X-ray Diffraction. 57–64.

Costa-Pinto, A. R., Lemos, A. L., Tavaria, F. K., dan Pintado, M. 2021. Chitosan and hydroxyapatite based biomaterials to circumvent periprosthetic joint infections.

Materials, 14(4), 1–20.

Ebrahimi, S., Mohd Nasri, C. S. S., dan Bin Arshad, S. E. 2021. Hydrothermal synthesis of hydroxyapatite powders using Response Surface Methodology (RSM). 16(5): 1-24.

El-Bassyouni, G. T., Eldera, S. S., Kenawy, S. H., dan Hamzawy, E. M. A. 2020.

Hydroxyapatite nanoparticles derived from mussel shells for in vitro cytotoxicity test and cell viability. Heliyon, 6(6): 1-10.

El Milla, L., Joesiana Indrani, D. 2016. Hidroksiapatit, Alginat, Dan Kitosan Sebagai Bahan Scaffold Tulang: Studi Spektroskopi (Hydroxyapatite, Alginate, and Chitosan for Bone Scaffolds: Spectroscopy Study). dentika dental journal. 19(2):

93–97.

Eli Aisah Sugiarti. 2015. Sintesis Hidroksiapatit Dan Scaffold Β -Trikalsium Fosfat Dari Cangkang Kerang Darah ( Anadara Granosa ) Dengan Matriks Alginat.

Epp, J. 2016. X-Ray Diffraction (XRD) Techniques for Materials Characterization. In Materials Characterization Using Nondestructive Evaluation (NDE) Methods.

Erizal, Basril A, Yessy.W, D. 2013. Sintesis dan karakterisasi membran komposit kitosan hidroksi Apatit berikatan silang sebagai Guided Tissue Regeneration (GTR). 28(1): 55–64.

Eslamian, M., dan Soltani-kordshuli, F. 2017. Development of multiple-droplet drop- casting method for the fabrication of coatings and thin solid films. Journal of Coatings Technology and Research. 20(2): 1-20.

Fougerouse, A., Rousseau, M., dan Lucas, J. S. 2008. Soft Tissue Anatomy, Shell Structure and Biomineralization. The Pearl Oyster, 77–102.

Gago, J., dan Ngapa, Y. D. 2021. Pemanfaatan cangkang telur ayam sebagai material dasar dalam sintesis hidroksiapatit dengan metode presipitasi basah. Cakra

(3)

Kimia (Indonesia E-Journal of Applied Chemistry), 9(1), 29–34.

Giat, S. S., Handayani, A., dan Untoro dan Bambang Sugeng, P. 2012. Hidroksiapatit Berpori dari Kulit Kerang (Saryati). Journal of Indonesian Materials Science, 13(4), 31–35.

Gunawarman. Afrizal. 2016. Analisa Struktur Mikro Material Substitusi Hidroksiapatit Cangkang Kerang Darah dan Resin Akrilik Bahan Pembuat Gigi untuk Aplikasi Gigi Tiruan. Jurnal Program Studi Teknik Mesin, Fakultas Teknik Universitas Andalas. 1(4): 1-9.

Haryono, Natanael, C. L., Rukiah, dan Yulianti, Y. B. 2018. Kalsium oksida mikropartikel dari cangkang telur sebagai katalis pada sintesis biodiesel dari minyak goreng bekas. Jurnal Material Dan Energi Indonesia, 8(1), 8–15.

Hembrick-Holloman, V., Samuel, T., Mohammed, Z., Jeelani, S., dan Rangari, V. K.

2020. Ecofriendly production of bioactive tissue engineering scaffolds derived from egg- And sea-shells. Journal of Materials Research and Technology, 9(6), 13729–13739.

Hussain, S., dan Sabiruddin, K. 2021) Effect of heat treatment on the synthesis of hydroxyapatite from Indian clam seashell by hydrothermal method. Ceramics International, 47(21), 29660–29669.

Intan, Tanjung, A., dan Nurrachmi, I. 2007. in Coastal Water of Tanjung Balai Asahan. Student of Fisheries and Marine Science Faculty, Riau University, 2.

Iqbal, H., Ali, M., Zeeshan, R., Mutahir, Z., Iqbal, F., Nawaz, M. A. H., Shahzadi, L., Chaudhry, A. A., Yar, M., Luan, S., Khan, A. F., dan Rehman, I. ur. 2017.

Chitosan/hydroxyapatite (HA)/hydroxypropylmethyl cellulose (HPMC) spongy scaffolds-synthesis and evaluation as potential alveolar bone substitutes.

Colloids and Surfaces B: Biointerfaces, 160, 553–563.

Kamrujjaman, M., Khandaker, J. I., Haque, M. M., Rahman, M. O., dan Rahman, M.

M. 2018. Study of the Dependency of pH Values on HAp Synthesis. Journal of Nanomaterials & Molecular Nanotechnology, 7(January), 1–4.

Khalid, H., dan Chaudhry, A. A. 2019. Basics of hydroxyapatite-structure, synthesis, properties, and clinical applications. In Handbook of Ionic Substituted Hydroxyapatites. Elsevier Ltd.

(4)

Kusumawati, N., dan Tania, S. 2012. Pembuatan Dan Uji Kemampuan Membran Kitosan Sebagai Membran Ultrafiltrasi Untuk Pemisahan Zat Warna Rhodamin B. Molekul, 7(1), 43.

Leni. Melia dan N. A. Hariyani. 2021. Hidroksiapatit sebagai salah satu bahan yang paling umum digunakan pada cangkok tulang: tinjauan pustaka. Jurnal Kedokteran Gigi Universitas Baiturrahmah. 8(2): 172-178.

Li, X. Y., Nan, K. H., Shi, S., dan Chen, H. 2012. Preparation and characterization of nano-hydroxyapatite/chitosan cross-linking composite membrane intended for tissue engineering. International Journal of Biological Macromolecules, 50(1), 43–

49.

Liga Berzina-Cimdina and Natalija Borodajenko. 2012. Research of calcium phosphates using FTIR spectroscopy.pdf. 127–134.

Lin, K., Chen, L., dan Chang, J. 2012. Fabrication of dense hydroxyapatite nanobioceramics with enhanced mechanical properties via two-step sintering process. International Journal of Applied Ceramic Technology, 9(3), 479–485.

López-Ortiz, S., Mendoza-Anaya, D., Sánchez-Campos, D., Fernandez-García, M. E., Salinas-Rodríguez, E., Reyes-Valderrama, M. I., dan Rodríguez-Lugo, V. 2020.

The pH Effect on the Growth of Hexagonal and Monoclinic Hydroxyapatite Synthesized by the Hydrothermal Method. Journal of Nanomaterials, 2020.

Lu, H. T., Lu, T. W., Chen, C. H., dan Mi, F. L. 2019. Development of genipin- crosslinked and fucoidan-adsorbed nano-hydroxyapatite/hydroxypropyl chitosan composite scaffolds for bone tissue engineering. International Journal of Biological Macromolecules, 128, 973–984.

Mahmoud, E. M., Sayed, M., El-Kady, A. M., Elsayed, H., dan Naga, S. M. 2020. In vitro and in vivo study of naturally derived alginate/hydroxyapatite bio composite scaffolds. International Journal of Biological Macromolecules, 165, 1346–1360.

Mozartha, M. (2015). Hidroksiapatit Dan Aplikasinya Di Bidang Kedokteran Gigi.

Cakradonya Dent J, 7(2). 807–868.

Nejatian, T., Khurshid, Z., Zafar, M. S., Najeeb, S., Zohaib, S., Mazafari, M., Hopkinson, L., dan Sefat, F. 2017. Dental biocomposites. In Biomaterials for Oral

(5)

and Dental Tissue Engineering. Elsevier Ltd.

Ojeda, J. ., dan Dittrich, M. 2012. Fourier Transform Infrared Spectroscopy for Molecular. Microbial Systems Biology: Methods and Protocols, Methods in Molecular Biology, 881(May 2021), 279–306.

Othman, R., Mustafa, Z., Loon, C. W., dan Noor, A. F. M. 2016. Effect of Calcium Precursors and pH on the Precipitation of Carbonated Hydroxyapatite. Procedia Chemistry, 19, 539–545.

Park Joon B dan J.D. Bronzino, 2003. Biomaterials principles and applications. CRC PRESS. London.

Parvez, S., Rahman, M. M., Khan, M. A., Khan, M. A. H., Islam, J. M. M., Ahmed, M., Rahman, M. F., dan Ahmed, B. 2012. Preparation and characterization of artificial skin using chitosan and gelatin composites for potential biomedical application. Polymer Bulletin, 69(6), 715–731.

Putro, iqbal widiyono., T. A. Prabowo dan Bambang. W. 2020. Kinetics Of Synthesis Reaction Of Hydrociapatite From Blood Clam Shells (Anadara Granosa Linn) Program Studi Teknik Kimia Upn “ Veteran ” Jawa Timur. September. 16(1): 1–5.

Quan, R., Wang, C., Wang, H., Wei, X., dan Zhao, Z. 2013. Investigation on high- temperature decomposition and regeneration characteristics of hydroxyapatite powders and sinters. Asian Journal of Chemistry, 25(16), 9203–9207.

Ramaiah, G. B., dan Ramesh, K. P. 2017. Structural Analysis Of Merino Wool, Pashmina And Angora Fibers Using Analytical Instruments Like Scanning Electron Microscope And Infra-Red Spectroscopy Application and Evaluation of Properties of Ethylene Acrylic Acid Co-Polymer on Cotton Fabrics using E.

International Journal of Engineering Technology Science and Research, August.

Ratner, B. D., Hoffman, A. S., Schoen, F. J., dan Lemons, J. E. 2013. Introduction - Biomaterials Science: An Evolving, Multidisciplinary Endeavor. In Biomaterials Science: An Introduction to Materials: Third Edition (Third Edit).

Rokhati. Nur. B. Pramudono., I. N. Widiasa., dan Hera. S.2012. Karakterisasi Film Komposit Alginat Dan Kitosan.jurnal Jurusan Teknik Kimia, Fakultas Teknik.

14(2): 158-164.

(6)

Sabry, A. A., dan Salih, N. A. 2020. Synthetic properties of hydroxyapatite powder prepared from natural eggs shell. Journal of Green Engineering, 10(7), 3498–

3507.

Sadat-Shojai, M., Khorasani, M. T., Dinpanah-Khoshdargi, E., dan Jamshidi, A.

2013. Synthesis methods for nanosized hydroxyapatite with diverse structures.

Acta Biomaterialia, 9(8), 7591–7621.

Sasmita, D. 2011. Sintesis hidrotermal dari cangkang keong emas (pomacea canaliculata lamarck) melalui metode hirotermal. In Jurnal Sainstek. 3(2). 129–

135).

Schneider, S., Lambers, L., dan Orejas, F. 2017. Symbolic model generation for graph properties. Lecture Notes in Computer Science (Including Subseries Lecture Notes in Artificial Intelligence and Lecture Notes in Bioinformatics), 10202 LNCS(November), 226–243.

Setiabudi, A., Hardian, R., dan Muzakir, A. 2012. Karakterisasi Material: Prinsip dan Aplikasinya dalam Penelitian Kimia. In UPI Press.

Sobczak-Kupiec, A., dan Wzorek, Z. 2012. The influence of calcination parameters on free calcium oxide content in natural hydroxyapatite. Ceramics International, 38(1), 641–647.

Suci, I. A., dan Ngapa, Y. D. 2020. Sintesis dan Karakterisasi Hidroksiapatit dari Cangkang Kerang Ale-Ale Menggunakan Metode Presipitasi Double Stirring.

Cakra Kimia, 8(2), 73–81.

Suratri, M. A. L. 2020. Pengaruh Hipertensi Terhadap Kejadian Penyakit Jaringan Periodontal (Periodontitis) pada Masyarakat Indonesia (Data Riskesdas 2018).

Buletin Penelitian Kesehatan, 48(4), 227–234.

Suryanarayana, C., dan Norton, M. G. 1998. Lattices and Crystal Structures. In X- Ray Diffraction.

Titus, D., James Jebaseelan Samuel, E., dan Roopan, S. M. 2019. Nanoparticle characterization techniques. In Green Synthesis, Characterization and Applications of Nanoparticles.

Vedula, S. S., dan Yadav, G. D. 2021. Chitosan-based membranes preparation and applications: Challenges and opportunities. Journal of the Indian Chemical

(7)

Society, 98(2), 100017.

Warastuti. Yessy., B. Abbas dan Nani. S. 2013. Pembuatan komposit polikaprolakton-kitosan-hidroksiapatit iradiasi untuk aplikasi biomaterial.

Majalah metalurgi. 28(2): 150-155.

Warastuti, Y. 2016. Pengaruh Perendaman Membran Komposit Hidroksiapatit- Kitosan-Poli ( Vinil Alkohol ) dalam Larutan Simulated Body Fluid ( SBF ) terhadap Karakteristiknya. 19(1), 40–53.

Warastuti, Y., Budianto, E., dan Darmawan. 2014. Jurnal Sains Materi Indonesia Sintesis dan Karakterisasi Membran Komposit Hidroksiapatit Tulang Sapi- Khitosan-Poli(Vinil Alkohol) untuk Aplikasi Biomaterial. Jurnal Sains Materi Indonesia, 16(2), 83–90.

Wibisono. Yusuf. 2015. biomaterial dan bioproduk. UB Press. malang

Yenti, S. R., Ervina, Fadli, A., dan Amri, I. 2016. Konversi Kulit Kerang Darah (Anadara granosa) Menjadi Serbuk Hidroksiapatit. Seminar Nasional Teknik Kimia, December, 89–94.

Ylinen, P. 2006. Applications of Coralline Hydroxyapatite With Bioabsorbable Containment and Reinforcement As Bone Graft Substitute. In Rheumatism.