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Yue Zhang, Leilei Zhang, Hongwen Nie, Mengting Wang & Zhijie Dong. (2022) In situ grown carbon nanotube-Fe3O4-dicalcium phosphate dehydrate composite coating on carbon fibres for bone tissue application. Materials Technology 37:14, pages 3122-3128.
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Garima Tripathi, Myeongki Park & Byong Taek Lee. (2022) Physical and in-vitro biological evaluations of plant based nano cellulose loaded injectable bone substitutes. Materials Technology 37:11, pages 1742-1754.
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Yeye Liu, Leilei Zhang, Lina Pei, Hongchao Sheng, Lixiong Qian & Hejun Li. (2020) Formation of calcium phosphate coating on carbon fibre with pyrolytic carbon interlayer. Surface Engineering 36:5, pages 553-557.
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Elif Ilhan, Zeynep Karahaliloglu, Ebru Kilicay, Baki Hazer & Emir Baki Denkbas. (2020) Potent bioactive bone cements impregnated with polystyrene-g-soybean oil-AgNPs for advanced bone tissue applications. Materials Technology 35:3, pages 179-194.
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Anping Wang, Wanqiu Du, Yanan Zhang, Zilong Zhang, Yuhan Zou, Jiapan Luan & Yin Zhang. (2023) Iron-doped calcium silicate bone cement loaded with carboxymethyl chitosan for bone tissue engineering repair materials. Journal of Sol-Gel Science and Technology 106:1, pages 44-53.
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Tianxing Gong, Xiujuan Ji, Xinyu Liu, Jingqiu Zhou, Jingshu Zhang, Yadong Chen & Qiong Wu. (2022) Different cellulose nanofibers impact properties of calcium phosphate silicate cement for bone tissue engineering. Cellulose 30:2, pages 1011-1029.
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Min Wei, Yufei Tang, Lei Chen, Bo Zhang, Shitong Zhang, Kang Zhao & Zixiang Wu. (2022) Enhanced mechanical properties and anti-washout of calcium phosphate cement/montmorillonite composite bone-cement for bone-repair applications. Ceramics International 48:23, pages 35185-35197.
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Meixia Zheng, Meichun Chen, Jianfu Chen, Kok Bing Tan, Rongfeng Xiao, Yanping Chen & Yujing Zhu. (2022) Properties of bacterial cellulose developed from genetically stable FM833 bacterial strain for 30 generations via Kombucha tea. Cellulose 29:16, pages 8509-8520.
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R. Bagnol, D. Grijpma, D. Eglin & T.F. Moriarty. (2022) The production and application of bacterial exopolysaccharides as biomaterials for bone regeneration. Carbohydrate Polymers 291, pages 119550.
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Swaminathan Jiji, Kannan Maharajan & Krishna Kadirvelu. 2022. Nanocellulose Materials. Nanocellulose Materials
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104
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K. R. Sneha & G. S. Sailaja. (2021) Intrinsically radiopaque biomaterial assortments: a short review on the physical principles, X-ray imageability, and state-of-the-art developments. Journal of Materials Chemistry B 9:41, pages 8569-8593.
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Sok Kuan Wong, Yew Hoong Wong, Kok-Yong Chin & Soelaiman Ima-Nirwana. (2021) A Review on the Enhancement of Calcium Phosphate Cement with Biological Materials in Bone Defect Healing. Polymers 13:18, pages 3075.
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Selorm Torgbo & Prakit Sukyai. (2020) Biodegradation and thermal stability of bacterial cellulose as biomaterial: The relevance in biomedical applications. Polymer Degradation and Stability 179, pages 109232.
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Yanan Zhang, Jiapan Luan, Yin Zhang, Shuai Sha, Sha Li, Shanqi Xu & Dongqing Xu. (2020) Preparation and Characterization of Iron-Doped Tricalcium Silicate-Based Bone Cement as a Bone Repair Material. Materials 13:17, pages 3670.
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Markus Witzler, Dominik Büchner, Sarah Shoushrah, Patrick Babczyk, Juliana Baranova, Steffen Witzleben, Edda Tobiasch & Margit Schulze. (2019) Polysaccharide-Based Systems for Targeted Stem Cell Differentiation and Bone Regeneration. Biomolecules 9:12, pages 840.
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