Product Overview
Hiyka proudly introduces its Hydroxylated Ultrapure Single-Walled Carbon Nanotubes, a cutting-edge nanomaterial engineered for exceptional performance across diverse scientific and industrial applications. By incorporating hydroxyl (–OH) functional groups onto the surface of ultrapure SWCNTs, we significantly enhance their dispersion in aqueous and polar solvents, increase their chemical reactivity, and facilitate their compatibility with various matrices. Ideal for use in advanced composites, electronics, energy storage, and biomedicine, our hydroxylated SWCNTs are designed to meet the exacting demands of both research and industry, enabling groundbreaking innovations and material advancements.
Key factor
Applications
Advantages
- Tailored Surface Chemistry: Provides precise control over material properties for innovative solutions across a wide range of applications.
- Superior Material Integration: Enhanced solubility and chemical reactivity enable seamless integration into a variety of materials and systems.
- High-Quality Manufacturing: Produced under strict quality control to ensure the highest levels of purity and performance.
- Sustainable Solutions: Supports the development of environmentally friendly materials and technologies, contributing to sustainability goals.
- Scalable Production: Available in bulk quantities to meet the demands of large-scale applications and manufacturing processes.
References
Construction of a highly sensitive signal electrochemical sensor based on self-assembled cobalt oxide-hydroxylated single-walled carbon nanotubes composite for …
J Zou, JF Guan, GQ Zhao, XY Jiang, YP Liu… - Journal of …, 2021 - ElsevierFabrication and electrochemical behavior of vertically-aligned carbon nanotube electrodes covalently attached to p-type silicon via a thioester linkage
Z Poh, BS Flavel, CJ Shearer, JG Shapter, AV Ellis - Materials Letters, 2009 - ElsevierAdsorption of chlorophenols from aqueous solutions by pristine and surface functionalized single-walled carbon nanotubes
H Ding, X Li, J Wang, X Zhang, C Chen - Journal of Environmental …, 2016 - Elsevier