Product Overview
Our Thiol Graphene 500nm-5 Microns integrates the unparalleled conductivity, mechanical strength, and surface area of graphene with the added functionality of thiol groups. This innovative material is designed for applications requiring not only the advanced properties of graphene but also specific chemical functionalities for binding with metals and other substrates. Ideal for a broad spectrum of applications, from advanced composite materials to cutting-edge catalytic systems, Thiol Graphene opens new doors for researchers and engineers seeking to leverage the full potential of functionalized nanomaterials.
Key factor
- Optimized Particle Size Range: With sizes from 500nm to 5 microns, this thiol-functionalized graphene is adaptable to a wide range of applications, offering precise control over material behavior.
- Enhanced Chemical Reactivity: The presence of thiol groups on the graphene surface significantly increases its ability to engage in chemisorption and chemical bonding with metal ions and complexes.
- Superior Dispersion Abilities: Improved compatibility and dispersion in various solvents and matrices, enabling easier integration into composite systems.
- Retained Graphene Characteristics: Maintains intrinsic graphene properties, including high electrical conductivity, mechanical resilience, and thermal stability.
Applications
- Versatile Application Spectrum: Suitable for developing high-performance composites, conductive materials, and catalytic systems, thanks to its chemical functionality and inherent graphene properties.
- Catalysis and Sensing Applications: The thiol groups facilitate the attachment of metal nanoparticles, enhancing catalytic activity and sensitivity in sensing applications.
- Advanced Material Performance: When incorporated into composites, it contributes to enhanced mechanical properties, electrical conductivity, and thermal resistance.
- Biomedical and Environmental Potential: Offers possibilities in drug delivery systems and environmental remediation technologies, utilizing its functional surface for targeted interactions.
Advantages
- Composite Materials: Reinforces polymers, ceramics, and metals for use in aerospace, automotive, and consumer electronics, enhancing performance and durability.
- Catalysis: Acts as a support material for catalysts in chemical reactions, including organic synthesis and pollutant degradation, improving efficiency and selectivity.
- Sensing Devices: Utilized in the development of biosensors and chemical sensors, where its ability to bind with specific molecules or ions is critical for detection.
- Environmental Remediation: Applied in systems designed for heavy metal ion removal from water, leveraging its capacity to form stable complexes with various metals.
Why HIYKA
Thiol Graphene 500nm-5 Microns represents a significant advancement in the field of functionalized nanomaterials, offering a unique combination of graphene’s remarkable properties with the targeted chemical reactivity of thiol groups. By incorporating this material into your research or product development, you unlock new possibilities for innovation across a wide range of disciplines, from materials science to environmental technology. Embrace the capabilities of Thiol Graphene and set new benchmarks in your field.
