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1 Ergebnisse
1
Tubular Nanoclay-Enhanced Calcium Phosphate Mineralization ..:
Menghan Yu
;
Li Feng
;
Zongle Gan
...
doi:10.1021/acsami.3c19424.s001. , 2024
Link:
https://doi.org/10.1021/acsami.3c19424.s001
RT Journal T1
Tubular Nanoclay-Enhanced Calcium Phosphate Mineralization and Assembly to Impart High Stiffness and Antimicrobial Properties
UL https://suche.suub.uni-bremen.de/peid=base-ftdeakinunifig:oai:figshare.com:article_25211748&Exemplar=1&LAN=DE A1 Menghan Yu A1 Li Feng A1 Zongle Gan A1 Yicheng Hua A1 Haiyan Wu A1 Bernhard Ganss A1 Huaming Yang YR 2024 K1 Medicine K1 Biotechnology K1 Evolutionary Biology K1 Inorganic Chemistry K1 Space Science K1 Biological Sciences not elsewhere classified K1 Chemical Sciences not elsewhere classified K1 inspired fabrication " K1 innovative approach showcases K1 impart high stiffness K1 highly crystalline hydroxyapatite K1 hard tissue repair K1 great challenge due K1 encapsulated hydroxyapatite nanorods K1 dense crystalline phase K1 based composites make K1 27 ± 0 K1 25 ± 1 K1 hnts ) K1 polyelectrolytes K1 artificially engineered materials K1 cap – paa K1 paas ) K1 paa plays K1 composite materials K1 " bioprocess K1 vinyl alcohol K1 tubular nanoclay K1 technical bottlenecks K1 smaller nanosizes K1 promising candidate K1 outstanding mechanical K1 offering versatility K1 morphological modulation K1 inorganic nanominerals K1 halloysite nanotubes K1 flexural strength K1 crucial role K1 corrosion resistance K1 calcium phosphates K1 biomaterial design K1 antimicrobial properties K1 amorphous particles K1 33 gpa JF doi:10.1021/acsami.3c19424.s001 LK http://dx.doi.org/https://doi.org/10.1021/acsami.3c19424.s001 DO https://doi.org/10.1021/acsami.3c19424.s001 SF ELIB - SuUB Bremen
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