Top 50 2d Materials

BeDimensional manufactures graphene and other two-dimensional materials with few atomic layers, utilizing precise layering techniques to ensure material consistency and quality. These materials enhance the performance of various applications, including electronics and energy storage, by providing superior conductivity and strength.

General Graphene specializes in industrial-scale production of high-quality chemical vapor deposition (CVD) graphene and carbon materials using proprietary roll-to-roll technology. The company provides researchers and industries with a reliable and scalable supply of graphene, addressing the need for affordable materials in applications ranging from flexible electronics to healthcare.

Avadain utilizes a patented, eco-friendly process to manufacture large, thin, and nearly defect-free graphene flakes at industrial scale and low cost. This technology addresses the lack of high-quality graphene sources needed for the production of graphene-enhanced products across various industries, unlocking significant market potential.

GraphEnergyTech develops graphene-based materials for use in solar cells, aiming to improve their efficiency and reduce production costs. Their technology focuses on leveraging graphene's unique properties to enhance solar energy conversion.

Black Semiconductor utilizes graphene to create ultra-fast, energy-efficient chip networks that enable thousands of chips to communicate as a single unit. This technology addresses the limitations of traditional electronic connections by integrating photonics with electronics, enhancing data communication speed and scalability in the semiconductor and electronics industries.

Paragraf manufactures graphene-based electronic devices, including Graphene Field-Effect Transistors and Hall Sensors, using contamination-free direct deposition technology. These devices enhance molecule sensing accuracy and sensitivity in various applications, such as healthcare and cryogenics, while improving safety in electric vehicles through advanced magnetic field detection.

Graphene Manufacturing Group produces high-quality, contaminant-free graphene powder using a proprietary process that utilizes low-cost feedstock, enabling scalable production. Their technology focuses on energy-saving and energy storage solutions, specifically through applications like graphene-based batteries and thermal coatings, which enhance efficiency and reduce operational costs.

Quantica utilizes advanced inkjet technology to enable digital manufacturing of high-viscosity materials for 2D and 3D applications, allowing for precise, drop-on-demand printing that minimizes waste. This technology provides manufacturers with the ability to customize designs rapidly and efficiently, supporting high-speed production for various industrial sectors.

DexMat produces Galvorn, a flexible carbon nanomaterial that combines high conductivity, strength, and corrosion resistance, making it suitable for diverse applications such as e-textiles, automotive, and aerospace. This technology addresses the environmental impact of traditional materials by providing a lightweight alternative that reduces greenhouse gas emissions in industrial processes.

Graphmatech develops novel hybrid materials, including polymers and conductive metals, designed for sustainable industrial applications such as hydrogen infrastructure and electrical conductivity. Their solutions significantly reduce leakage and enhance performance, providing drop-in replacements that improve efficiency and sustainability in manufacturing processes.

The startup develops printed electronics and battery materials utilizing proprietary carbon nanotube and ink coating technologies to create transparent heaters, antennas, and LED lighting. Their materials enhance the performance and versatility of electronic devices, addressing the need for more efficient and adaptable components in various applications.

The startup offers a content and collaboration platform that utilizes 2D and 3D models to convey essential product information for various applications, including repair instructions and marketing materials. This platform enhances data visualization and communication across organizations, enabling users to create precise visual assets that clarify complex concepts.

Nanosys provides proprietary quantum dots that offer precise control over light, color, and energy for enhanced product performance. Our advanced materials enable spectrum engineering for superior displays and new application development. We support customers in scaling production and exploring innovative uses for quantum dot technology.

The Fabricant is a digital fashion house that enables designers to convert sketches into photorealistic images and extract sewing patterns from images, streamlining the design process. By transforming 2D images into 3D assets, the platform enhances creativity and efficiency for fashion brands and independent designers without the need for physical samples.

Graphene Composites develops graphene-aerogel composites for applications in ballistic protection and pathogen resistance. Their technology enhances material strength and reduces weight, addressing the need for more effective protective gear and antimicrobial solutions in various industries.

Wormsensing manufactures the world's thinnest piezo ceramic vibration sensors, utilizing a unique process to produce high-quality 2D crystalline materials for precise dynamic strain measurement. This technology enables large-scale, systematic monitoring of vibrations, addressing the limitations of traditional sensors in performance, integration, and accessibility.

This startup manufactures carbon-based nanomaterials, specifically graphene products in powder and aqueous dispersion forms, for applications in medical technology, solar energy, automotive, electronics, and construction. Their offerings enhance material properties, improve product quality, and contribute to reducing environmental impact.

9N transforms carbon waste into 2D graphene by capturing high-value gases through advanced recycling technologies, addressing the global challenge of carbon emissions. This process not only reduces waste but also creates valuable materials for various applications, contributing to a sustainable economy.

The startup operates a research platform focused on the design and manufacturing of topological materials derived from quantum science, along with associated software for devices utilizing these materials. This technology enhances energy efficiency and sustainability in various applications, enabling businesses to optimize energy utilization.

Develops nanolayered metamaterials and AI-optimized LGRIN optics to create lightweight, high-performance solutions for industries such as defense, fusion energy, and electric vehicles. These technologies enable faster target acquisition in night vision systems, scalable power delivery in grids, and improved energy storage in capacitors, addressing challenges in efficiency, weight, and reliability.

Helio Display Materials develops perovskite-based color conversion materials for display technologies, enhancing color accuracy and efficiency in micro displays. By leveraging proprietary intellectual property from leading researchers, Helio aims to replace traditional quantum dot materials, addressing limitations in color performance and production scalability.

The startup manufactures single-crystal piezoelectric materials and devices using proprietary technology to produce high-quality single-crystal layers. This technology addresses the challenge of epitaxial multiple layers, providing semiconductor industries with reliable and efficient semiconductor devices.

QNA Technology develops and supplies surface-modified semiconductor nanomaterials, specifically colloidal quantum dots that emit blue light, for applications in optoelectronics and LED technology. Their materials are designed to eliminate heavy metals and rare elements, reducing energy consumption in devices while enabling efficient production through printing techniques.

This startup manufactures spherical turbostratic graphene and hydrogen through a CO2e neutral process that converts mixed and contaminated waste plastics, including hard-to-recycle materials like tires, into valuable products. By utilizing waste destined for landfills, the company provides sustainable materials for applications in lubricants, lithium-ion batteries, and construction.

This startup develops nano-based materials for industrial applications, utilizing nanotechnology to create durable electrical and thermal conductors and insulators. Their products enable the production of components that can withstand high temperatures through efficient methods like compression molding and vacuum bagging, reducing manufacturing costs and complexity.

Global Graphene Group specializes in the production of single-layer graphene oxide and reduced graphene oxide, enabling the development of graphene-enhanced materials for applications in batteries, thermal management, and corrosion resistance. Their technology addresses the need for high-performance materials in energy storage and electronic markets, facilitating improved efficiency and durability in various industrial applications.

TMTP Labs produces chemically pristine graphene using a scalable process that requires only water, graphite, and electricity, making it environmentally friendly and cost-effective. This technology enhances the performance of materials across various industries, including construction, plastics, and energy, by significantly improving strength, conductivity, and recyclability.

This startup manufactures graphene-based additives and coatings that enhance thermal and electrical conductivity while improving mechanical properties and reducing product weight. Their solutions enable manufacturers to increase efficiency and performance, contributing to sustainability goals without compromising strength.

Vorbeck manufactures graphene-based electronic components and conductive inks, utilizing patented technology to create flexible, multilayer circuits that enhance the performance of traditional electronics. Their products address the limitations of conventional materials in applications such as RFID, wearables, and battery development by improving thermal, mechanical, and electrical properties.

Danish Graphene specializes in functionalizing graphene to create customizable materials that enhance product performance across various applications. The company focuses on sustainable production methods, addressing the need for high-quality, environmentally friendly materials in advanced manufacturing.

Carbon Waters develops a unique, low-environmental-impact process for producing stable, pre-dispersed graphene additives that enhance the thermal and mechanical properties of conventional materials. Their technology addresses the need for improved energy efficiency and material longevity while providing alternatives to toxic substances in various industrial applications.

MATERIX develops functional thin films using nanotechnology to enhance the properties of various surfaces, including glass, textiles, wood, and metal, by providing features such as hydrophobicity, photocatalysis, and antibacterial properties. These coatings extend the lifespan of materials and reduce maintenance needs, contributing to resource conservation and sustainability.

The startup develops high-performance graphene technology, including nanoplatelets and graphene-impregnated polymers, to enhance the mechanical and thermal properties of industrial materials. This enables businesses to improve the performance and durability of products such as paints, coatings, batteries, and lubricants.

Flawless Technical Diamonds (FTD) manufactures high-purity, single-crystal diamond substrates using an advanced AHPHT process for demanding applications. They provide customizable nitrogen or boron doping and sizes up to 15x15mm, ensuring ultra-low dislocation densities for quantum computing, high-power electronics, and advanced optics.

NanoPrint Innovations develops high-speed thin film deposition systems that produce functional oxide coatings for solar cells, graphene semiconductors, and recyclable food packaging without the need for vacuum chambers. This technology enhances film quality and uniformity while significantly reducing production time, making advanced materials more affordable and scalable for various industries.

Graphenera Carbon manufactures graphene powder, conductive ink, and thermal interface materials to enhance electrical conductivity and thermal management in various applications. Their products address the need for high-performance materials in electronics, energy storage, and thermal management systems.

Chat3D is an AI-powered platform that converts 2D images into fully textured, production-ready 3D models with optimized topology. It streamlines the 3D asset creation pipeline for game developers, AR/VR creators, and 3D artists, offering a library of community-generated assets for accelerated project development.

Molymem develops functional 2D material membranes that enhance water permeance and selectively reject pollutants, addressing the need for cleaner water in municipal and industrial applications. Their technology reduces the environmental impact of wastewater treatment and maximizes water reuse across various sectors, including pharmaceuticals and mining.

Sindri Materials Corp. specializes in the scalable synthesis of ultra-high-quality graphene, producing continuous monolayer sheets with approximately 99% coverage for use in cryogenic electron microscopy. By providing pre-transferred graphene on custom support grids, the company enhances the efficiency of structural biology research, saving valuable time and resources for researchers.

Diamond Quanta develops diamond-based semiconductor technology that enhances charge transport and mitigates crystal defects, enabling high-performance power electronics and quantum photonic applications. Their solutions address the limitations of traditional materials by providing superior thermal conductivity and efficiency, facilitating compact devices that operate at higher temperatures and voltages.

Aligned Carbon develops the Alcar wafer platform, which features semiconductor-pure, aligned carbon nanotubes grown on industry-standard wafers, enabling compatibility with CMOS fabrication processes. This technology addresses the limitations of traditional semiconductor materials by providing a 1000x improvement in power-performance, facilitating the advancement of next-generation computing systems.

Graphene-X manufactures clothing with graphene fibers, enhancing durability, thermal regulation, and moisture-wicking properties. This technology addresses the limitations of traditional fabrics by providing superior performance and longevity in various environments.

The startup has developed an automated system for fabricating graphene liquid cells that enables transmission electron microscopy of liquid samples without vitrification. This technology provides life science researchers with dynamic imaging capabilities of biological cells, single molecules, and nanoparticles in liquid at high resolution.

The startup develops ultra-thin graphene and two-dimensional nanomaterial films for cleantech applications, enabling energy-efficient building cooling without increasing greenhouse gas emissions. This technology helps clients create comfortable indoor environments while significantly reducing energy consumption associated with traditional cooling methods.

Labyrinth Labs develops AI-driven tools for creating illustrations, photography, and 2D and 3D assets, enabling users to generate high-quality visual content without extensive design skills. This platform addresses the challenge of accessibility in digital asset creation, allowing individuals and businesses to produce professional-grade visuals efficiently.

The startup develops nanostructured transition metal dichalcogenides for applications in sensing and catalysis, utilizing abundant natural minerals to create customizable 2D materials. These materials enhance sensor sensitivity and improve catalytic efficiency, addressing the need for more effective and adaptable solutions in various industrial applications.

GraphenePioneer develops high-quality graphene and nanomaterials to enhance the performance of energy storage systems and composite materials. By leveraging graphene's exceptional strength and conductivity, the company addresses the need for more efficient and sustainable solutions across various industries.

KB-Element specializes in the development and production of non-oxidized graphene materials, which are utilized in applications such as electrostatic discharge protection and thermal management solutions. The company addresses the need for high-performance materials in industries like automotive and electronics by providing graphene-based intermediates and novel composites that enhance conductivity and thermal efficiency.

Simplenn manufactures the X2 Thruster, utilizing a unique 2D+ fabrication process that combines photochemical etching and diffusion bonding to create high-performance, scalable propulsion systems powered by zero-carbon hydrogen and oxygen propellants. This technology addresses the critical issue of limited propellant lifespan in satellites, enabling extended operational lifetimes and reducing thruster unit costs.

The startup produces high-grade white graphene, a nanoscale 2D material that is non-toxic, impermeable, and transparent, providing exceptional tensile strength for various applications. This material addresses the need for durable and lightweight reinforcement in product development across multiple industries.