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.

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.

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.

Uses artificial intelligence to accelerate the discovery and development of advanced materials by predicting their properties and performance based on computational models. This approach reduces the time and cost associated with traditional materials research, enabling faster innovation in industries such as manufacturing, energy, and electronics.

Materials Nexus utilizes AI-enabled software and quantum calculations to accelerate the discovery and design of new materials, reducing the time required from decades to months. The startup aims to significantly lower environmental, economic, and social costs associated with critical materials, contributing to a reduction in global CO2e emissions.

Orbital Materials utilizes a generative AI model, LINUS, to design new materials based on desired properties, while its simulation model, Orb, accurately predicts material performance under realistic conditions. This approach significantly reduces the time and resources required for material development, addressing the lengthy trial-and-error process traditionally associated with creating advanced materials and climate technologies.

The startup utilizes artificial intelligence to accelerate the discovery of new materials by analyzing vast datasets and predicting material properties. This approach addresses the lengthy and costly traditional methods of material research, enabling faster innovation in industries such as manufacturing and energy.

Multiscale Technologies utilizes AI-driven simulations and high-throughput testing through its MIND platform and SMaRT machine to accelerate materials design and manufacturing processes. This approach significantly reduces time to market and material waste while enhancing quality control and cost efficiency for product companies across various 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.

ExoMatter is an AI-driven platform that streamlines materials research and development by providing access to a vast database of scientific materials data, enabling users to efficiently filter and rank materials based on specific criteria. This approach reduces the time and costs associated with traditional trial-and-error methods in materials R&D, allowing researchers to focus on the most promising candidates.

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.

Radical AI utilizes artificial intelligence and materials science to enhance the research and development of new materials, streamlining the design and discovery processes. The company focuses on addressing the urgent need for innovative materials solutions to tackle global challenges in sustainability and efficiency.

Boston Materials manufactures thermal interface materials and composite materials using patented Z-axis Fiber™ technology, which employs vertically aligned carbon fibers for efficient energy transfer. The company addresses performance and reliability issues in semiconductors, durability challenges in lightweight vehicles, and cost concerns in hydrogen fuel cells for heavy-duty applications.

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.

SparkNano utilizes Spatial Atomic Layer Deposition (ALD) technology to enable the mass production of energy and display devices with significantly reduced reliance on scarce materials. This approach enhances performance and efficiency in applications such as hydrogen production, batteries, and solar cells, addressing the critical need for sustainable manufacturing solutions.

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.

N-ERGY utilizes an AI-driven material recommender that analyzes over 40 million simulations to identify optimal materials for applications in nuclear energy, electronics, and aerospace. This technology reduces the material search space by 99%, significantly accelerating research and development timelines for advanced engineering projects.

The startup specializes in developing advanced materials for energy storage systems, utilizing computational chemistry and AI-driven simulations to enhance performance and sustainability. By focusing on material optimization, the company addresses the need for efficient and reliable energy storage solutions in stationary applications.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

GreenDynamics offers an AI-powered cloud platform that accelerates materials science R&D through zero-code tools and industry-specific solutions. It facilitates materials data querying, prediction, design, and analysis, bridging the gap between academic research and industrial application for faster innovation.

AtomicAI provides an AI-native platform, AtomCloud, that transforms data from nano-instruments into actionable insights for materials characterization and synthesis. This technology addresses the complexity of nanomaterials manufacturing by automating data analysis, enabling faster decision-making and reducing trial-and-error in research and development.

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.

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.

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.

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.

Atomic Tessellator utilizes AI-driven simulations in thermodynamics and molecular mechanics to identify and verify materials with desirable properties. The platform enables researchers to efficiently explore complex workflows and accelerate the discovery of advanced materials, addressing the challenges of time-consuming and resource-intensive material research.

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.

The startup utilizes its Rapid Alloy Design (RAD)™ platform, which combines AI and Multi-Scale Simulations to design and optimize new alloys 100 times faster than traditional methods. This technology addresses the high costs and lengthy timelines associated with materials engineering by delivering bespoke alloys tailored to specific performance requirements in various industries.

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.

AI Materia utilizes generative AI and materials science to enhance product development and optimize manufacturing processes, enabling companies to achieve faster R&D cycles and improved product performance. By transforming existing data into actionable insights, the platform helps businesses reduce costs and adapt to regulatory changes while maintaining high standards of sustainability.

The startup offers a cloud-based platform that utilizes advanced simulation algorithms to enable researchers to model and analyze material properties with minimal input. This technology reduces the complexity and time required for material simulation, facilitating faster research and development in various scientific fields.

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.

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.

This startup accelerates advanced materials development by automating the extraction of physical information from synthesis and characterization data. Their platform provides tools for managing advanced materials datasets, enabling users to gain real-time feedback and reduce experimental trials.

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.

AtomCloud provides an AI-native platform that automates the extraction and analysis of data from various characterization techniques, enabling the generation of high-fidelity datasets for advanced materials. This technology reduces the lead time for materials development by facilitating real-time insights and improving decision-making in R&D and manufacturing processes.

GenMat uses AI and machine learning to analyze technology specifications and identify the optimal materials for development. This helps companies accelerate research and development by streamlining material selection and discovery.

SunDensity Canada develops multilayered solar photovoltaic materials using perovskite and colloidal quantum dot technologies to achieve higher energy density and efficiency compared to traditional solar cells. This approach addresses the need for more cost-effective and power-dense solar solutions in the renewable energy market.

This startup offers a high-throughput screening platform and AI-powered database to accelerate the discovery of new materials. By partnering with corporate labs, they reduce the cost and time associated with materials research and development.

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.

The startup specializes in the research and development of graphene-based composites, which enhance material strength and conductivity for various industrial applications. These composites address the need for lightweight, durable materials in sectors such as aerospace, automotive, and electronics, improving performance and reducing overall weight.

The startup develops a GaN substrate that enables infinite reuse of parent wafers and facilitates rapid layer release, allowing for the cost-effective production of large-area direct bandgap semiconductors used in light-emitting diodes. Their two-dimensional material-based layer transfer technology supports epitaxial growth on graphene, enabling the production of high-quality single crystalline semiconductors on various host substrates.