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Journal of Crystal Growth • Volume • October • Article number
The potential use of green mussel (Perna Viridis) shells for synthetic calcium carbonate polymorphs in biomaterials
Ismail R. , Fitriyana D.F. , Santosa Y.I. , Nugroho S., Hakim A.J., Al Mulqi M.S., Jamari J., Bayuseno A.P.
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a, b b, c d, e a a a a
a
Mechanical Engineering Dept., Diponegoro University, Semarang, Indonesia
Center for Biomechanics, Biomaterials, Biomechatronics and Bio Signal Processing (CBIOM3S), Diponegoro University, Semarang, Indonesia
Mechanical Engineering Dept., Universitas Negeri Semarang, Semarang, Indonesia Medicine Department, Diponegoro University, Semarang, Indonesia
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Abstract
Green mussel shells contain a high content of calcium that can be potentially used for starting biomaterials. A powder processing and subsequent calcination-dissolution-precipitation (CDP) technique for recycling the shells into the value-added of precipitated calcium carbonates (PCC) is presented in this paper. In the experimental study, the received green mussel shells were initially washed and ground and followed by heat treatment at different temperatures in an electric furnace.
PCC product was precipitated from the blended solution of calcium and carbonate ions derived from
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the heat-treated ground powder. The precipitating solids were then investigated via XRD, SEM-EDX, and FTIR methods. The XRD Rietveld method confirmed that the raw green mussels were rich in crystalline aragonite, which could be recycled into vaterite and calcite in the PCC product. The current study demonstrated that the green mussel shells are technically possible for the starting materials in biomedical applications. © 2021 Elsevier B.V.
Author keywords
A2. Calcination; A2. Powder processing; B1. Biomaterials; B1. Green mussel shells; B1. Precipitated calcium carbonates
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Ca Ca
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(Open Access)
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Feasibility of green mussel, Perna viridis farming in Marudu Bay, Malaysia
Cited 19 times http://www.journals.elsevier.com/aquaculture-reports/
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8/25/2021 Journal of Crystal Growth | Vol 572, In progress (15 October 2021) | ScienceDirect.com by Elsevier
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8/25/2021 Editorial board - Journal of Crystal Growth | ScienceDirect.com by Elsevier
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J. Derby
University of Minnesota Department of Chemical Engineering and Materials Science, 421 Washington Avenue SE, 55455-0132, Minneapolis, Minnesota, United States of America, Fax: +1 612 626 7246
S. Akamatsu
Paris Institute of Nanosciences, 4 Place Jussieu, 75252, Paris, France (Solidification, Experimentation)
H. Asahi
SANKEN, 8-1 Mihogaoka, Ibarikai, 567, Ibaraki-shi, Japan, Fax: +81 6 6879 8409 (Molecular beam epitaxy)
M. Bickermann
TU Berlin Institute of Chemistry, Tech Univ Berlin Inst Chem Müller-Breslau-Str. 10, 10623, Berlin, Germany (Bulk growth of nitrides, oxides and fluorides, semiconductors, substrate crystals, crystal growth technology)
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Lund University Department of Physics, Box 118, 221 00, Lund, Sweden, Fax: +46 46 222 36 37 (Nanocrystals, Nanowires, Epitaxy, III-V semiconductors)
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8/25/2021 Editorial board - Journal of Crystal Growth | ScienceDirect.com by Elsevier
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T. Duffar
Materials and Processes Science and Engineering, Chimie Metalurgiques Domaine University St Martin, 38402, St Martin d'Heres, France
(Bulk crystal growth processes from the melt, including their numerical simulation, All types of defects in bulk crystals, especially in relation with growth conditions, Capillarity in bulk crystal growth)
R.S. Feigelson
Stanford University Geballe Laboratory for Advanced Materials, 476 Lomita Mall, CA 94305-4045, Stanford, California, United States of America, Fax: +1 650 723 3044
C.W. Lan
National Taiwan University Department of Chemical Engineering, 10617, Taipei, Taiwan
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Xi'an Jiaotong University School of Energy and Power Engineering, 710049, Xian, China
(Modeling and simulation of crystal growth, melt/solution growth, Semiconductor and photovoltaic materials, Heat and mass transfer, Transport phenomena)
P. Müller
Interdisciplinary Nanoscience Centre Marseille, Campus de Luminy case 913, 13288, Marseille, France, Fax: +33 491 418 916 (Theory of crystal growth, Growth mechanisms, Epitaxy, Nanoscale materials, Thin films)
E. Meissner
Fraunhofer Institute for Integrated Systems and Device Technology IISB, Fuerther Str. 250, 90429, Erlangen, Germany
K. Nakajima
Tohoku University Institute for Materials Research, 2-1-1 Katahira, 980-8577, Sendai, Japan, Fax: +81 22 215 2006
T. Paskova
North Carolina State University Department of Electrical and Computer Engineering, 362 Daniels Hall; Campus Box 7911, 27606- 3294, Raleigh, North Carolina, United States of America, Fax: +1 919 515 5523
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Crystal Technology Consulting, 12529, Schönefeld, Germany, Fax: +49 3379 444 253
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K. Sangwal
Lublin University of Technology Department of Applied Physics, ul. Nadbystrzycka 38, 20-618, Lublin, Poland, Fax: +48 81 5384-731 (Solution growth, Crystallization kinetics, Growth morphology)
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Interdisciplinary Nanoscience Centre Marseille, Campus de Luminy case 913, 13288, Marseille, France, Fax: +33 04 91 41 89 16 (Solution growth, Industrial - biological macromolecules, Pharmaceutical compounds)
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Indian Institute of Science Department of Materials Engineering, Bengaluru, India Solidification Eutectics Phase-field modeling Modeling of solidification processes
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