2D MATERIALS
MULTICOMPONENT | ATOMICALLY-THIN | QUANTUM CONFINED
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NANOARCHITECTURED FOR HIGH-PERFORMANCE & ADVANCED APPLICATIONS
NANOARCHITECTURED FOR HIGH-PERFORMANCE & ADVANCED APPLICATIONS
Two-dimensional (2D) materials are crystalline solids consisting of a single atomic layer in thickness, with lateral dimensions from hundreds of nanometres to several microns. Their atomically thin structure, combined with engineered crystal architecture, delivers properties that surpass conventional materials in conductivity, mechanical strength, surface reactivity, and spin-dependent behaviour.
At NANOARC, our portfolio of mono- and multicomponent 2D materials is designed to provide quantifiable performance advantages, enabling innovation across electronics, energy, coatings, and biomedical sectors.
PERFORMANCE HIGHLIGHTS
PERFORMANCE HIGHLIGHTS
Electrical Conductivity: Up to 10× higher carrier mobility than conventional thin-film semiconductors, supporting faster, lower-power electronic devices.
Mechanical Strength: Tensile strength exceeding 130 GPa for atomically thin layers, ideal for composite reinforcement and flexible electronics.
Spin Transport: Spin diffusion lengths up to 20 µm, enabling advanced spintronic and quantum devices.
Surface Reactivity: Up to 5× increase in catalytic efficiency relative to traditional nanomaterials for energy and chemical applications.
Optical Tunability: Bandgap engineering across the visible to near-infrared range, optimising coatings, sensors, and photonic devices.
SECTOR-SPECIFIC BENEFITS
SECTOR-SPECIFIC BENEFITS
ELECTRONICS
ELECTRONICS
High-mobility 2D materials enable next-generation transistors, sensors, and spintronic devices.
Reduced power consumption and faster switching speeds for low-energy computing.
Tailored bandgaps support flexible printed, or transparent electronic components.
ENERGY
ENERGY
Multicomponent 2D materials provide high-efficiency electro-catalysts for fuel cells, electrolyzers, and batteries.
Engineered surfaces enable enhanced charge transfer and long-term stability, improving energy conversion efficiency by up to 30%.
COATINGS
COATINGS
Exceptional mechanical strength and chemical stability support durable, functional coatings with UV-blocking, antimicrobial, or anti-corrosion properties.
Atomically thin layers allow ultra-lightweight and highly conformal coatings with up to 50% thinner layersthan conventional solutions while maintaining performance.
BIOMEDICAL
BIOMEDICAL
Biocompatible 2D materials with tunable surface chemistry enhance drug delivery, imaging, and biosensing.
High surface-to-volume ratio and chemical activity enable nanotherapeutics with improved targeting and efficacy, achieving up to 5× higher loading capacity for therapeutic agents.
WHY NANOARC 2D-MATERIALS
WHY NANOARC 2D-MATERIALS
Nanoarchitectured for performance: Crystal structure modification (nanoarchitecture) optimises functionality at the atomic scale.
Reproducible and scalable: Supplied as powders suitable for research, prototyping and production.
Exclusive access: Available directly through our website for rapid adoption into high-value applications.
NANOARC 2D materials are engineered to deliver measurable improvements, giving OEMs, researchers and technology developers a competitive edge across multiple sectors.
PRODUCTS
PRODUCTS
Payments can be made directly through our website via bank transfer, credit card, stablecoin, 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 required dose
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
ZINCENE™ OXIDE | ATOMICALLY - ARCHITECTURED 2D ZINC OXIDE
ZINCENE™ OXIDE | ATOMICALLY - ARCHITECTURED 2D ZINC OXIDE
NANOARCHITECTURE : Atomically thin sheets (< 1nm)
DIMENSIONS : < 1 nm thickness, up to 2 um lateral width
SURFACE AREA (BET) : 635,200 cm²/g
BAND GAP : ~ 3.5 - 3.7 eV
BOHR EXCITON RADIUS : ~ 2.34 nm
COLOUR : White powder
HEAT RESISTANCE : Up to 1975 °C (3587°F)
SURFACE ACCESSIBILITY: 100% active surface, no ligands or stabilisers
OVERVIEW: Zincene Oxide™ is an atomically-thin 2D material composed of zinc oxide (ZnO), with lateral dimensions up to 2 microns. Despite its nanoscale thickness, Zincene Oxide™ offers exceptional electronic, optical and piezoelectric properties, making it a versatile platform for research, industrial applications, solar energy devices and biomedical technologies.
KEY FEATURES & APPLICATIONS
KEY FEATURES & APPLICATIONS
KEY FEATURES:
ATOMICALLY-THIN 2D MATERIAL: Ideal for integration into nanoscale electronics, photonic devices and layered heterostructures.
ZnO COMPOSITION: Wide bandgap semiconductor with high chemical stability, biocompatibility and excellent electron mobility.
LATERAL DIMENSIONS: Up to 2 microns for easy handling, imaging and device fabrication.
OPTOELECTRONIC AND PIEZOELECTRIC PROPERTIES: Supports UV photodetection, energy harvesting, flexible electronics and efficient charge transport in solar cells.
APPLICATIONS:
NANOELECTRONICS & SENSORS: High-performance transistors, field-effect devices and chemical sensors.
OPTOELECTRONICS & PHOTONICS: Efficient UV and visible-light photodetectors, LEDs and transparent electronics.
SOLAR ENERGY & PHOTOVOLTAICS:
Acts as an electron transport layer in perovskite and dye-sensitised solar cells.
Enhances charge separation and transport efficiency, improving solar cell performance.
Enables flexible, lightweight and high-efficiency solar devices at the nanoscale.
BIOMEDICAL & BIOTECHNOLOGY:
Biocompatible for biosensing and bioimaging.
Supports drug delivery platforms and lab-on-chip devices.
Piezoelectric stimulation for cell growth or tissue engineering applications.
MATERIAL SCIENCE & ENERGY RESEARCH:
Investigate 2D semiconducting behaviour and heterostructure physics.
Flexible and wearable energy harvesting devices using piezoelectric properties.
WHY CHOOSE ZINCENE OXIDE™?
Zincene Oxide™ combines atomic-scale thinness with exceptional electronic, optical, piezoelectric and photovoltaic properties, providing a versatile platform for next-generation research, advanced devices, solar energy technologies and biomedical applications. Its unique combination of stability, biocompatibility and functional performance makes it an essential material for scientists, engineers and researchers exploring 2D material technologies.
MAGNETENE™ | ATOMICALLY - ARCHITECTURED 2D MAGNETITE | MAGNETITE ROSE
MAGNETENE™ | ATOMICALLY - ARCHITECTURED 2D MAGNETITE | MAGNETITE ROSE
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 495,500 cm²/g
COLOUR : Black/Blackish-Brown powder
HEAT RESISTANCE : Up to 1597 °C (2907 °F)
SURFACE ACCESSIBILITY: 100% active surface, no ligands or stabilisers
OVERVIEW: Magnetene™ is a revolutionary 2D material composed of magnetite (Fe₃O₄), engineered to be atomically thin with lateral dimensions up to 2 microns. Despite its ultra-thin profile, Magnetene™ exhibits strong, stable magnetism with temperature-independent magnetic remanence, making it a versatile solution for research, industrial applications and biomedical technologies.
KEY FEATURES & APPLICATIONS
KEY FEATURES & APPLICATIONS
KEY FEATURES:
Atomically-Thin 2D Material: Perfect for integration into nanoscale devices, multilayer heterostructures and high-precision laboratory setups.
Magnetite Composition: Naturally magnetic, offering reliable performance in a wide range of conditions.
Lateral Dimensions: Up to 2 microns for ease of handling, imaging and device assembly.
Temperature-Independent Magnetic Remanence: Retains magnetic properties consistently across a broad temperature range.
APPLICATIONS
SPINTRONICS & NANOELECTRONICS : Enables advanced spin-based charge transport and memory devices.
MAGNETIC SENSING & IMAGING: High-sensitivity sensors, magnetometers and nanoscale magnetic imaging platforms.
DATA STORAGE & MEMORY DEVICES: Stable magnetic remanence supports reliable nanoscale data retention.
BIOMEDICAL RESEARCH & MEDICINE:
Targeted drug delivery using magnetically guided nanoparticles.
Magnetic imaging contrast enhancement for high-resolution diagnostics.
Biosensing applications for rapid detection of biomolecules.
MATERIAL SCIENCE & BIOTECH R&D: Investigate fundamental magnetic phenomena in 2D systems including biomimetic materials and lab-on-chip devices.
WHY CHOOSE Magnetene™?
Magnetene™ combines atomic-scale thinness with robust, stable magnetism, opening opportunities for advanced research, precision medicine and next-generation device development. Its unique properties make it an essential material for scientists, engineers and biomedical researchers seeking consistent performance in both experimental and applied settings.
IROENE™ OXIDE | ATOMICALLY - ARCHITECTURED 2D IRON OXIDE
NANOARCHITECTURE : Atomically Thin Sheets/Flakes ( < 1 nm Thickness)
SURFACE AREA (BET) : 495,500 cm²/g
COLOUR : Earthy Yellow/Orange/blackish-Brown powder
HEAT RESISTANCE : Up to 1377 °C ( 2511 °F)
SURFACE ACCESSIBILITY: 100% active surface, no ligands or stabilisers
APPLICATIONS : Nanoadditive for ceramics, decorative concrete and microcement, coatings, plastics, textiles and nano-catalytic applications.
ZINCENE™ SULPHIDE | ATOMICALLY - ARCHITECTURED 2D ZINC SULPHIDE
ZINCENE™ SULPHIDE | ATOMICALLY - ARCHITECTURED 2D ZINC SULPHIDE
NANOARCHITECTURE : Atomically thin sheets (< 1nm)
DIMENSIONS : < 1 nm thickness, up to 2 um lateral width
SURFACE AREA (BET) : 635,200 cm²/g
BAND GAP : ~ 3.54 - 3.91eV
BOHR EXCITON RADIUS : ~ 2.5 nm
COLOUR : White Powder
HEAT RESISTANCE : Up to 1850 °C (3360°F)
SURFACE ACCESSIBILITY: 100% active surface, no ligands or stabilisers
APPLICATIONS : Infrared Optics, Alpha-rays Detector, Phosphor, White Pigment, Photocatalyst, Semiconductor Material.
VIEW PRICING
VIEW PRICING
QUANTITY | PRICE
25 grams (0.88 oz.) | € 4,000
250 grams (8.81 oz.) | € 39,000
1kg (2.2 lb) | € 156,000
BULK ORDER RATES : From 1 Tonne | CONTACT trade@nanoarc.org
HAPENE™ | ATOMICALLY - ARCHITECTURED 2D HYDROXYAPATITE
HAPENE™ | ATOMICALLY - ARCHITECTURED 2D HYDROXYAPATITE
NANOARCHITECTURE : Atomically-thin 2D material | < 1 nm (< 0.001 μm) thickness
SURFACE AREA (BET) : 703,000 cm²/g
COLOUR : White powder
HEAT RESISTANCE : Up to 1100 ° C (2012 ° F)
SURFACE ACCESSIBILITY: 100% active surface, no ligands or stabilisers
APPLICATIONS : Implant material, to promote bone growth and repair lesions in tooth enamel. Impact-resistant material for composites, lightweight concrete additive, grinding media, antimicrobial filter material.
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