There is a great demand worldwide for bone-related implant materials. The drawbacks of
chronic infections and poor bone healing of current implant materials have limited their …

Dental implants have great potential in the global market, around 3.7billionin2015,
whichwillincreaseto 7 billion in 2023 with an annual increase rate of 8.2%. Incorporating …

Bringing multifunctional graphene out of solution through facile self-assembly to form 2D
surface nanostructures, with control over the lateral size and surface properties, would be an …

At the time when pathogens are developing robust resistance to antibiotics, the demand for
implant surfaces with microbe-killing capabilities has significantly risen. To achieve this goal …

An important clinical challenge is the development of implant surfaces which have good
integration with the surrounding tissues and simultaneously inhibit bacterial colonization …

The construction of an antibacterial biological coating on titanium surface plays an important
role in the long-term stability of oral implant restoration. Graphene oxide (GO) has been …

Implant failures still happen because of bacterial infections and inferior osteogenic
properties. Graphene oxide (GO) could induce osteogenic differentiation as well as exhibit …

The long-term durability of the implant is influenced by two significant clinical challenges,
namely bacterial infection and fixation loosening. Conventional implant materials have failed …

Abstract Recently, graphene oxide (GO)-based materials have shown great potential as
coatings for implant surfaces owing to their biocompatibility, surface functionalisation, and …

To modulate the bioactivity and boost the therapeutic outcome of implantable metallic
devices, biodegradable coatings based on polylactide (PLA) and graphene oxide …