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Item Metadata only Absorbing oxygen carriers promotes phosphorus recovery from sludge via the microwave thermal conversion process(2024-06-01) Yan X.; Zhao S.; Hu J.; Dang J.; Yao S.; Cai J.; Sittijunda S.; Wang W.; Lee D.J.; Yang P.; Yan X.; Mahidol Universityenhanced the conversion efficiency of OP into non-apatite inorganic phosphorus (NAlP), which was further converted to apatite inorganic phosphorus (AP). Most phosphorus in the sludge char is presented in the form of orthophosphate.Item Metadata only Evaluation of magnetic hyperthermia, drug delivery and biocompatibility (bone cell adhesion and zebrafish assays) of trace element co-doped hydroxyapatite combined with Mn-Zn ferrite for bone tissue applications(2024-09-16) Tithito T.; Sillapaprayoon S.; Chantho V.; Pimtong W.; Thongbunchoo J.; Charoenphandhu N.; Krishnamra N.; Yong N.; Lert-Itthiporn A.; Maneeprakorn W.; Pon-On W.; Tithito T.; Mahidol Universityapatite based on trace element co-doped apatite (Ca10−δMδ(PO4)5.5(CO3)0.5(OH)2; M = trace elements of Mg, Fe, Zn, Mn, Cu, Ni, Mo, Sr and BO33−; THA)-integrated-biocompatible magnetic Mn-Zn ferrite ((Mn, Zn)Fe2O4 nanoparticles, BioMags) called THAiPublication Metadata only Fabrication of biocomposite scaffolds made with modified hydroxyapatite inclusion of chitosan-grafted-poly(methyl methacrylate) for bone tissue engineering(2019-03-01) Tanatsaparn Tithito; Panan Suntornsaratoon; Narattaphol Charoenphandhu; Jirawan Thongbunchoo; Nateetip Krishnamra; I. Ming Tang; Weeraphat Pon-On; Kasetsart University; Mahidol University; King Mongkut s University of Technology Thonburi; Academy of Science. In bioactivity studies, more apatite formation on the surface were seen after immersion in the SBF solution. In vitro growth experiments using UMR-106 osteoblast-like cells on the mHA@Chi-g-PMMA scaffold case showed that the attachment, viabilityItem Metadata only Development of Biomaterials Based on Biomimetic Trace Elements Co-Doped Hydroxyapatite: Physical, In Vitro Osteoblast-like Cell Growth and In Vivo Cytotoxicity in Zebrafish Studies(2023-01-01) Tithito T.; Sillapaprayoon S.; Pimtong W.; Thongbunchoo J.; Charoenphandhu N.; Krishnamra N.; Lert-itthiporn A.; Maneeprakorn W.; Pon-On W.; Mahidol University. The bioactivity studies demonstrated that the THA substrate can induce apatite particles to cover its surface and be in contact with surrounding simulated body fluid (SBF). In vitro biological assays revealed that the osteoblast-like UMR-106 cells were wellItem Metadata only Multifunctional strontium-MOFs-based dental adhesive: Innovation for enhanced bonding performance and bioactivity(2026-01-01) Matphang S.; Aueboonprasert N.; Rattanakam R.; Teanchai C.; Sinthuvanich C.; Attarataya J.; Sonthisathaporn M.; Akkarachaneeyakorn K.; Matphang S.; Mahidol Universitysilver nitrate penetration, attributed to the nano-sized Sr-MOFs and chemical interaction between the fumarate's carboxylate groups and calcium in dentin. The adhesive also demonstrated remineralization capabilities through the deposition of apatite-like