Monolithic DNApatite: An Elastic Apatite with Sub-Nanometer Scale Organo-Inorganic Structures

Monolithic DNApatite: An Elastic Apatite with Sub-Nanometer Scale Organo-Inorganic Structures

Hydroxyapatite (HA) exhibits outstanding biocompatibility, bioactivity, osteoconductivity, and natural anti-inflammatory properties. Pure HA, ion-doped HA, and HA-polymer composites are investigated, but critical limitations such as brittleness remain; numerous efforts are being made to address them...

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Veröffentlicht in:Advanced materials (Weinheim) 2024-10, Vol.36 (41), p.e2406179
Hauptverfasser: Lee, Jin Woong, Lee, Byoungsang, Park, Cheol Hyun, Heo, Jun Hyuk, Lee, Tae Yoon, Lee, Dongtak, Bae, Jina, Sundharbaabu, Priyannth Ramasami, Yeom, Won Kyun, Chae, Sudong, Lim, Jae-Hyuk, Lee, Seok-Won, Choi, Jin-Seok, Bae, Hyung-Bin, Choi, Jae-Young, Lee, Eun-Ho, Yoon, Dae Sung, Yeom, Geun Young, Shin, Hyunjung, Lee, Jung Heon
Format: Artikel
Sprache:eng
Schlagworte:
Addition polymerization
Apatite
Biocompatibility
Chemical synthesis
Crystallization
Deoxyribonucleic acid
DNA
Hydroxyapatite
Mechanical properties
Modulus of elasticity
Nanorods
Polymer matrix composites
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Zusammenfassung:Hydroxyapatite (HA) exhibits outstanding biocompatibility, bioactivity, osteoconductivity, and natural anti-inflammatory properties. Pure HA, ion-doped HA, and HA-polymer composites are investigated, but critical limitations such as brittleness remain; numerous efforts are being made to address them. Herein, the novel self-crystallization of a polymeric single-stranded deoxyribonucleic acid (ssDNA) without additional phosphate ions for synthesizing deoxyribonucleic apatite (DNApatite) is presented. The synthesized DNApatite, DNA Ca (PO ) OH , has a repetitive dual phase of inorganic HA crystals and amorphous organic ssDNA at the sub-nm scale, forming nanorods. Its mechanical properties, including toughness and elasticity, are significantly enhanced compared with those of HA nanorod, with a Young's modulus similar to that of natural bone.
ISSN:0935-9648
1521-4095
1521-4095
DOI:10.1002/adma.202406179