Reduced Graphene Oxide

Redefining the Performance of Reduced Graphene Oxide

rgo.bio delivers the world’s lowest-density commercial reduced graphene oxide, engineered for advanced industrial, scientific, and deep-tech applications. Our material consistently achieves surface areas of 450–950 m²/g, purities >96%, and bulk densities as low as 0.003–0.008 g/cm³, establishing a new global benchmark in functional carbon nanostructures.

Surface Area: 450–950 m²/g

Purity: >96%

Bulk Density: 0.003–0.008 g/cm³

Designed for advanced composites, energy systems, separation technologies, and next-generation material platforms.

Material Advantages

Strategic Material Advantages

rgo.bio’s reduced graphene oxide is designed for environments where performance, consistency, and traceability are non-negotiable. Its unique combination of ultra-low density, high purity, and large surface development enables new architectures and efficiencies in advanced material systems.

Ultra-Low Density

Ultra-Low Bulk Density

With the lowest commercial density available globally, our RGO enables exceptional volume efficiency, high dispersion potential, and enhanced interface behavior across polymeric, ceramic, and metallic systems.

High Purity

High Purity for Critical Environments

Purities exceeding 96% support reproducibility and reliability in aerospace, energy systems, composites, and advanced separation technologies requiring stringent performance standards.

Large Surface Area

Large, Accessible Surface Area

The 450–950 m²/g surface area range provides a highly accessible architecture for electron transport, molecular adsorption, catalytic activity, and mechanical reinforcement at ultra-low loading levels.

Applications

Application Domains

rgo.bio’s reduced graphene oxide is engineered to integrate into advanced technologies across multiple sectors, enabling higher efficiency, lower weight, and enhanced performance in mission-critical systems.

Advanced Structural Composites

Enables weight reduction, improved stiffness, fracture resistance, and thermal stability at ultra-low loadings in composite systems used in transportation, infrastructure, and high-performance components.

Energy & Electrification

Supports batteries, supercapacitors, hydrogen systems, thermal interfaces, and electrochemical architectures that require stable, conductive carbon networks and high surface interaction.

Water, Air & Molecular Separation

Ideal for high-efficiency membranes, sorption media, and atmospheric water generation due to its large surface development and tunable chemical interactions with target species.

Industrial Materials & Performance Additives

Enhances durability, chemical resistance, and multifunctionality in polymers, resins, coatings, adhesives, and engineered materials where long-term performance is a requirement.

Characterization

Material Characterization

rgo.bio’s reduced graphene oxide is characterized using electron microscopy and optical imaging for Raman spectroscopy to verify morphology, structure, and consistency across production batches.

High-resolution SEM image of reduced graphene oxide at 10,000 times magnification — SEM – High-Resolution Microstructure (10,000×)
High-resolution SEM micrograph (10,000×) revealing ultrathin layered morphology and nanoscale topography of reduced graphene oxide.

SEM image of reduced graphene oxide at 2,500 times magnification — SEM – Laminar Architecture (2,500×)
SEM image (2,500×) showing expanded laminar domains and flake-like architecture of reduced graphene oxide at the microscale.

Optical micrograph of reduced graphene oxide surface used for Raman measurements — Raman – Layered Domains (Optical)
Optical micrograph (5 µm scale) showing layered RGO domains selected for Raman surface characterization.

Optical micrograph showing heterogeneous microstructure of reduced graphene oxide — Raman – Heterogeneous Microstructure (Optical)
Optical micrograph highlighting heterogeneous RGO microstructure prior to spectroscopic Raman mapping.

Why rgo.bio

Why Industry Leaders Choose rgo.bio

rgo.bio is built for organizations that require more than experimental materials. We focus on delivering a robust, industrially relevant reduced graphene oxide platform backed by data, quality systems, and long-term partnership.

Lowest commercial bulk density worldwide for reduced graphene oxide.
Surface areas consistently within 450–950 m²/g for high interface efficiency.
High-purity RGO suitable for mission-critical and regulated applications.
Industrial scalability and global availability for R&D through full-scale deployment.
Enterprise-grade quality assurance and batch-to-batch consistency.
Technical guidance for integration, formulation, and performance optimization.

Technical Data

Access Technical Documentation

Detailed specifications, integration notes, and safety documentation are available upon request. Our technical team supports evaluation, prototyping, and scale-up programs.