Graphene/chitosan-functionalized iron oxide nanoparticles for biomedical applicationsiron oxide nanoparticleschitosanrGObioactivitycytotoxicityantimicrobial activitySuperparamagnetic iron oxide nanoparticles are well known for biomedical applications. The particle size, morphology, surface area, and functionalization are ...
Graphene,sp2hybridized carbon framework of one atom thickness, is reputed as the strongest material to date. It has marked its impact in manifold applications including electronics, sensors, composites, and catalysis. Current state-of-the-art graphene research revolves around its biomedical applications....
A hydrogel coated fibre grating-based pH sensor for biomedical applications has been realised, where Graphene Oxide (GO) had been used to enhance the bonding between the coating and the fibre. Two methods of deposition of GO were analysed i.e., evaporation and co- electroplating. The paper co...
Great advances have been made in the development of nanocomposite hydrogels. However, the comprehensive understanding on the fundamental principles and biomedical applications of BP-based nanocomposite hydrogels remains to be further explored. In this review, we focus on the fabrication, characterization ...
a variety of two-dimensional (2D) nanomaterials, which are a subtype of nanomaterials with ultrathin layer-structured topology, have attracted great interest, including graphene and its derivatives, transition metal dichalcogenides (TMDCs), transition metal oxides transition metal oxides (TMOs), and tra...
Electrochemical stripping including ion intercalation method and anodizing method has been used in the synthesis of graphene. Recently, 2D Xenes were also obtained with the assistance of mild ultrasound by ion intercalation method. The embedding cations (such as K+, Na+, Li+, etc.) could enlarge...
High-efficiency upconversion process in cobalt and neodymium doped graphene QDs for biomedical applications Armin Zarghami ,Mahboubeh Dolatyari &Ali Rostami Article 09 June 2023|Open Access Surface modification of polycaprolactone nanofibers through hydrolysis and aminolysis: a comparative study on structural...
13.8.3 PROTEIN 2D ARRAYS IN APPLICATIONS As already mentioned, one of the major application of protein 2D arrays is in electron microscope crystallography for determining the tertiary structure of the protein molecules [146-152,214]. A biomedical application, which may find a wide usage, is to ...
Graphene-based aerogels (GA) have a high potential in the biomedical engineering field due to high mechanical strength, biocompatibility, high porosity, an
chitosan stabilized CuO NPs were fabricated via co-precipitation method using copper acetate precursor. 500 °C was the calcination temperature that produced < 35 nm sized NPs (Javed et al.2021a). Similarly, PEG and PVP capped CuO NPs of 27 nm size were fabricated using co-precipitation ...