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Implant longevity is not only a question of mechanics. It is a question of microbiology.
Bacterial colonisation remains a leading contributor to implant complications and failure. Yet many antimicrobial materials rely on photo-activation — despite the oral cavity being predominantly dark.
Q-DENT™ - WHAT'S UNIQUE ?
The zone of inhibition (ZOI) is the clear area that forms around an antimicrobial agent where bacteria are completely absent. It represents the boundary within which bacterial growth has been effectively prevented. The size of the ZOI is influenced by several factors, including the composition of the antimicrobial agent, particle size and concentration.
Quantum materials differ significantly from conventional materials due to their exceptional performance under conditions in which traditional materials may fail.
WHY QUANTUM MATERIALS ?
In antimicrobial applications, quantum materials remain active in both illuminated and dark environments. By contrast, many conventional materials require photo-activation to function effectively. This distinction is particularly important in the oral environment, which is predominantly dark.
In many cases, the ZOI produced by quantum materials can be two to four times larger than that of standard nanomaterials. The antimicrobial effect may extend several centimetres, meaning that dental fillings and implants incorporating these materials can help protect adjacent teeth and penetrate deep into root canals.
As a result, simply coating an implant or incorporating low concentrations of QUANT DENT (Q-DENT) nanoadditives into a dental filling can significantly inhibit bacterial proliferation within the oral cavity.
THE END OF PASSIVE DENTAL MATERIALS
THE END OF PASSIVE DENTAL MATERIALS
Dentistry does not need stronger materials. It needs smarter ones. Dental implants and restorative systems operate in a hostile biological environment. Bacteria adapt. Biofilms form. Surfaces degrade. Inflammation follows.
Traditional materials were engineered to survive. They were never engineered to respond.
Q-DENT™ biomaterials change that.
We design materials at the nanoscale to actively influence microbial behaviour cellular response and long-term integration. This is not surface decoration. It is functional engineering at atomic precision.
THE CHALLENGES WITH CONVENTIONAL APPROACHES
THE CHALLENGES WITH CONVENTIONAL APPROACHES
Most dental materials are:
Mechanically optimised
Chemically inert
Biologically passive
Passive materials invite colonisation.
Passive surfaces allow failure to begin at the microscopic level long before it becomes clinically visible. Incremental improvements are no longer enough.
THE FUTURE IS ACTIVE NANOMATERIALS
For decades materials have been designed to endure the oral environment. Strength was the benchmark. Survival was success. That era is closing.
The future belongs to materials that understand biology. Materials that integrate, communicate and perform at the level of life itself.
Dental materials should not merely endure the oral environment. They should control it. Nano-dentistry with Q-DENT is hence not an upgrade, it is a reset.
INTELLIGENCE AT THE NANOSCALE
At NANOARC Biomimetics, we engineer matter with atomic precision. Every surface every interface every interaction is intentionally designed to influence microbial behaviour tissue response and long-term structural integrity.
By shaping nanoarchitecture inspired by natural biological systems, we create dental materials that are:
Structurally refined
Functionally active
Biologically aligned
Enduring by design
THE BIOMIMETIC SHIFT
THE BIOMIMETIC SHIFT
At NANOARC Biomimetics, we engineer surfaces that do more than exist. They interact.
By mimicking biological structures at the nanoscale we create materials that:
Resist early bacterial attachment
Promote stronger bone and tissue integration
Reinforce structural performance under load
Maintain long-term functional stability
This is dentistry designed with biological intelligence built in.
FROM COATINGS TO CONTROL
We do not simply apply antimicrobial layers, we control material nanoarchitecture, improve strength and enhance structural behaviour at its origin by embedding functionality directly into the material.
BEYOND STRENGTH
True performance is not measured only in mechanical resistance. It is defined by harmony between material and living tissue.
Our Q-DENT nano-engineered technologies:
Discourage early bacterial adhesion
Support confident osseointegration
Reinforce structural resilience under functional load
Sustain aesthetic and mechanical integrity over time
The result is controlled performance at the nanoscopic level, long before clinical outcomes are determined.
BUILT FOR MANUFACTURERS WHO LEAD
Our Q-DENT nanoadditives are the beginning of biologically intelligent design. They can be integrated seamlessly with existing production systems, enabling scalable design without disruptive retooling. For manufacturers this means:
Greater product differentiation
Enhanced clinical performance
Reduced failure risk
A defensible technological edge
Q-DENT™ nanoadditives can be applied in two principal ways:
As active components within dental implant composites, providing both antimicrobial protection and enhanced mechanical strength
As active, transparent nano-coatings that deliver antimicrobial protection while improving osteoblast adhesion through the material’s biomimetic properties, thereby supporting bone growth
Partner with us and redefine what dental materials can achieve.
PRODUCTS
PRODUCTS
Payments can be made directly through our website via bank transfer, credit card, cryptocurrency, invoice issuance for a bank transfer.
The Higher the specific surface area (BET) of the nanoparticles, the more effective the nanomaterial and the lower the necessary dose
**Doses can be varied depending on the designated application and functional need.
Products are sold exclusively on our website
SUBSCRIPTION MODEL : Get special rates and free shipping with pre-order purchase subscriptions
QUARTERLY ( 5 % ) | BI-ANNUALLY ( 10 % ) | ANNUALLY ( 15 % )
WE SHIP WORLDWIDE
QUANT DENT
QUANT DENT
NANOARCHITECTURE : ~ 5nm (0.005 μm) spherical nanoparticles
SURFACE AREA (BET) : 415300 cm²/g
COLOUR : White Nanopowder
DOSAGE IN IMPLANT OR RESIN COMPOSITES : on average 500 – 1000 μg/ml (or 0.5 - 1g per kg of composite mix)
DOSAGE IN IMPLANT COATING (min. bacteriostatic to max bactericidal concentration) : 300 – 1500 μg/ml
APPLICATIONS : Anticorrosion, Antibacterial - effective against Streptococcus mutans, Enterococcus faecalis, Lactobacillus, Porphyromonas gingivalis, Prevotella intermedia, Fusobacterium nucleatum, Aggregatibacter actinomycetemcomitans. Anti-fungal, Suitable for resin fillings, prohibit of biofilm formation and inhibit hemolysis by hemolysin toxin produced by pathogens. Improves mechanical strength of tooth fillings and implants, osteogenic, Photoinitiator for photo-curable coatings, adhesives and dental restoratives.
QUANT DENT I
QUANT DENT I
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 635200 cm²/g
COLOUR : White Nanopowder
DOSAGE IN IMPLANT OR RESIN COMPOSITES : on average 300 – 700 μg/ml (or 0.3 - 0.7g per kg of composite mix)
DOSAGE IN IMPLANT COATING (min. bacteriostatic to max bactericidal concentration) : 250 – 1000 μg/ml
APPLICATIONS : Enhanced UV curing (Photoinitiator for photo-curable coatings, adhesives and dental restoratives), to compensate for human error, Anticorrosion, Antibacterial - effective against Streptococcus mutans, Enterococcus faecalis, Lactobacillus, Porphyromonas gingivalis, Prevotella intermedia, Fusobacterium nucleatum, Aggregatibacter actinomycetemcomitans, prohibit of biofilm formation and inhibit hemolysis by hemolysin toxin produced by pathogens. Anti-fungal, Pigment. Suitable for resin fillings and easy accessibility of ultra-small cracks and crevices in teeth. Improves mechanical strength of tooth fillings and implants, osteogenic.
QUANT DENT II
QUANT DENT II
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 703000 cm²/g
COLOUR : White Nanopowder
DOSAGE : as needed
APPLICATIONS : Essential nano-biomineral useful for its osteogenic property and ability to form strong bonds with the host bone tissue. Drug delivery, implant material, to promote bone growth and repair lesions in tooth enamel. Impact-resistant material for composites, grinding media, antimicrobial filter material.
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