Antibacterial and Cellular Behaviors of Novel Zinc-Doped Hydroxyapatite/Graphene Nanocomposite for Bone Tissue Engineering

Maleki-Ghaleh, H.; Siadati, M. H.; Fallah, Ali; Koç, Bahattin; Kavanlouei, Majid; Khademi-Azandehi, Pooriya; Moradpur-Tari, Ehsan; Omidi, Yadollah; Barar, Jaleh; Beygi‐Khosrowshahi, Younes; Kumar, Alan Prem; Adibkia, Khosro

doi:10.3390/ijms22179564

Cited by 53 publications

(39 citation statements)

References 72 publications

(96 reference statements)

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“…There are various strategies to fabricated two-dimensional materials, such as chemical vapor deposition (CVD) [19], vacuum filtration [23], solvothermal method [22], and so on [24][25][26]. Among them, hydrothermal is a promising method because of its simple preparation process and easiness to achieve large size preparation.…”

Section: Methodsmentioning

confidence: 99%

Bi2Te3/Graphene Heterostructure as the Saturable Absorber for ~1.0 μm Passively Q-switched Solid State Pulsed Laser

Sun

Xia

2022

Crystals

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Due to the tunable nonlinear optical properties of the Bi2Te3/graphene heterostructure, stable solid state pulsed lasers based on the Bi2Te3/graphene saturable absorber have attracted intensive attention. In this work, the Bi2Te3/graphene heterostructure with good nonlinear absorption characteristics was synthesized by a self-assembly solvothermal route, and the optical saturable absorption properties of the saturable absorber were investigated. Owing to the large modulation depth of Bi2Te3 nanosheets and the high thermal conductivity of graphene, the Bi2Te3/graphene heterostructure saturable absorber shown good nonlinear saturable absorber performance and contributed the improved passively Q-switched Yb3+: GdAl3(BO3)4 pulsed laser when compared with that of the pure Bi2Te3 based Yb3+: GdAl3(BO3)4 laser, no matter pulse width or pulse energy. Our work demonstrates that the Bi2Te3/graphene heterostructure was a promising saturable absorber in ~1 μm solid-state pulsed lasers.

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Section: Methodsmentioning

confidence: 99%

Bi2Te3/Graphene Heterostructure as the Saturable Absorber for ~1.0 μm Passively Q-switched Solid State Pulsed Laser

Sun

Xia

2022

Crystals

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“…aureus and P. aeruginosa Pre-osteoblast (MC3T3-E1) cell line 2020 [ 222 ] Biomimetic scaffold composited with berberine, Ag nanoparticles and silk fibroin Wet chemical method S. aureus MC3T3-E1 preosteoblast cells 2020 [ 223 ] Zn-doped HAp and rGO Mechanochemical process E. coli and S. aureus MSCs 2021 [ 224 ] CS, carboxymethyl cellulose and Zn and Fe ions Co-precipitation method and reeze-drying E. coli, S paratyphy, L monocytogenes, S. aureus MG-63 osteoblast-like cells 2021 [ 225 ] Cu ions and cetyltrimethylammonium bromide loaded into montmorillonite Cation exchange and intercalation E. coli Not studied 2022 [ 226 ] PLA, AgNPs and GO SLS technique S. aureus MG-63 osteoblast-like cells 2022 [ 227 ] Cellulose and co-dispersed nanosystem (Fe3O4/GO) by free radical polymerization Freeze-drying E. coli, S. aureus and P.…”

Section: Antimicrobial Scaffolds For Tissue Engineeringmentioning

confidence: 99%

Scaffolds in the microbial resistant era: Fabrication, materials, properties and tissue engineering applications

Serrano‐Aroca

Cano-Vicent

Serra

et al. 2022

Materials Today Bio

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“…Comprehensive findings of these experiments revealed: Strontium-doped hydroxyapatite showed increased osteoblast proliferation and differentiation [ 89 , 90 ]. Zinc-doped hydroxyapatite induced differentiation of mesenchymal stem cells to osteoblasts, migration and proliferation of endothelial cells and antimicrobial activity against Staphylococcus aureus [ 91 , 92 ]. Silver-doped hydroxyapatite demonstrated enhanced antibacterial activity and osteoblast adhesion when silver was used in low concentrations; higher concentrations of silver had a negative effect on osteoblast cell proliferation [ 93 , 94 , 95 ].…”

Section: Recent Advances In Biomaterials For Periodontal Regenerationmentioning

confidence: 99%

“…Zinc-doped hydroxyapatite induced differentiation of mesenchymal stem cells to osteoblasts, migration and proliferation of endothelial cells and antimicrobial activity against Staphylococcus aureus [ 91 , 92 ].…”

Section: Recent Advances In Biomaterials For Periodontal Regenerationmentioning

confidence: 99%

Role of Biomaterials Used for Periodontal Tissue Regeneration—A Concise Evidence-Based Review

Varghese

Rajagopal

2022

Polymers

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Periodontal infections are noncommunicable chronic inflammatory diseases of multifactorial origin that can induce destruction of both soft and hard tissues of the periodontium. The standard remedial modalities for periodontal regeneration include nonsurgical followed by surgical therapy with the adjunctive use of various biomaterials to achieve restoration of the lost tissues. Lately, there has been substantial development in the field of biomaterial, which includes the sole or combined use of osseous grafts, barrier membranes, growth factors and autogenic substitutes to achieve tissue and bone regeneration. Of these, bone replacement grafts have been widely explored for their osteogenic potential with varied outcomes. Osseous grafts are derived from either human, bovine or synthetic sources. Though the biologic response from autogenic biomaterials may be better, the use of bone replacement synthetic substitutes could be practical for clinical practice. This comprehensive review focuses initially on bone graft replacement substitutes, namely ceramic-based (calcium phosphate derivatives, bioactive glass) and autologous platelet concentrates, which assist in alveolar bone regeneration. Further literature compilations emphasize the innovations of biomaterials used as bone substitutes, barrier membranes and complex scaffold fabrication techniques that can mimic the histologically vital tissues required for the regeneration of periodontal apparatus.

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Antibacterial and Cellular Behaviors of Novel Zinc-Doped Hydroxyapatite/Graphene Nanocomposite for Bone Tissue Engineering

Cited by 53 publications

References 72 publications

Bi2Te3/Graphene Heterostructure as the Saturable Absorber for ~1.0 μm Passively Q-switched Solid State Pulsed Laser

Bi2Te3/Graphene Heterostructure as the Saturable Absorber for ~1.0 μm Passively Q-switched Solid State Pulsed Laser

Scaffolds in the microbial resistant era: Fabrication, materials, properties and tissue engineering applications

Role of Biomaterials Used for Periodontal Tissue Regeneration—A Concise Evidence-Based Review

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