Emerging 2D nanomaterials for biomedical applications
Abstract Two-dimensional (2D) nanomaterials are an emerging class of biomaterials with
remarkable potential for biomedical applications. The planar topography of these …
remarkable potential for biomedical applications. The planar topography of these …
2D nanoclay for biomedical applications: regenerative medicine, therapeutic delivery, and additive manufacturing
Clay nanomaterials are an emerging class of 2D biomaterials of interest due to their
atomically thin layered structure, charged characteristics, and well‐defined composition …
atomically thin layered structure, charged characteristics, and well‐defined composition …
[HTML][HTML] In situ gelling drug delivery systems for topical drug delivery
OM Kolawole, MT Cook - European Journal of Pharmaceutics and …, 2023 - Elsevier
In situ gelling formulations are drug delivery systems which typically exist in a liquid form at
room temperature and change into gel state after application to the body in response to …
room temperature and change into gel state after application to the body in response to …
Design of biocompatible chitosan/polyaniline/laponite hydrogel with photothermal conversion capability
L Zhang, G He, Y Yu, Y Zhang, X Li, S Wang - Biomolecules, 2022 - mdpi.com
In recent years, multifunctional hydrogels have received a great deal of attention because
they are biocompatible and can mimic the extracellular matrix. Herein, we prepared …
they are biocompatible and can mimic the extracellular matrix. Herein, we prepared …
Research and applications of nanoclays: A review
Nanoclays, a specific type of nanomaterial, have emerged as versatile and dynamic
materials, with tremendous potential for advanced functional applications. Despite …
materials, with tremendous potential for advanced functional applications. Despite …
Laponite-based nanocomposite hydrogels for drug delivery applications
Hydrogels are widely used for therapeutic delivery applications due to their biocompatibility,
biodegradability, and ability to control release kinetics by tuning swelling and mechanical …
biodegradability, and ability to control release kinetics by tuning swelling and mechanical …
[HTML][HTML] Hypoxia-mimicking 3D bioglass-nanoclay scaffolds promote endogenous bone regeneration
X Zheng, X Zhang, Y Wang, Y Liu, Y Pan, Y Li, M Ji… - Bioactive Materials, 2021 - Elsevier
Large bone defect repair requires biomaterials that promote angiogenesis and
osteogenesis. In present work, a nanoclay (Laponite, XLS)-functionalized 3D bioglass (BG) …
osteogenesis. In present work, a nanoclay (Laponite, XLS)-functionalized 3D bioglass (BG) …
Silicon-containing nanomedicine and biomaterials: materials chemistry, multi-dimensional design, and biomedical application
L Chen, S Zhang, Y Duan, X Song, M Chang… - Chemical Society …, 2024 - pubs.rsc.org
The invention of silica-based bioactive glass in the late 1960s has sparked significant
interest in exploring a wide range of silicon-containing biomaterials from the macroscale to …
interest in exploring a wide range of silicon-containing biomaterials from the macroscale to …
Injectable biomimetic hydrogel guided functional bone regeneration by adapting material degradation to tissue healing
The treatment of irregular bone defects remains a clinical challenge since the current
biomaterials (eg, calcium phosphate bone cement (CPC)) mainly act as inert substitutes …
biomaterials (eg, calcium phosphate bone cement (CPC)) mainly act as inert substitutes …
Nanoclay-based 3D printed scaffolds promote vascular ingrowth ex vivo and generate bone mineral tissue in vitro and in vivo
Acellular soft hydrogels are not ideal for hard tissue engineering given their poor
mechanical stability, however, in combination with cellular components offer significant …
mechanical stability, however, in combination with cellular components offer significant …