Description

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(-OH) Functionalized Short Length Double Walled Carbon Nanotubes

Name: (-OH) Functionalized Short Length Double Walled Carbon Nanotubes, Purity: > 65%
SKU: NG01DW0202
Price: 85 EUR
Availability: InStock

Purity: > 65%, OD: 2-4 nm

(-OH) Functionalized Short Length Double Walled Carbon Nanotubes are advanced nanomaterials produced via CVD, offering controlled dimensions (OD 2–4 nm, length 0.5–2.5 µm) and high surface area (370 m²/g). Hydroxyl groups improve dispersibility and chemical reactivity, while excellent electrical conductivity (98 S/cm) enables integration into energy storage, electronics, composites, and biomedical research applications.

Technical Properties

Purity	> 65 %
Content of (-OH)	3.0%
Color	black
Length	0.5-2.5 µm
OD	2-4 nm
ID	1-3 nm
Tap Density	0.15 g/cm3
True Density	2.2 g/cm3
SSA	370 m2/g
Ash	1.5 wt%
Electrical Conductivity	98 S/cm
Manufacturing Method	CVD
CAS No	308068-56-6

Applications

Medicine: The hydroxyl functionalization enhances biocompatibility, enabling use in drug delivery systems and biosensors for targeted therapies and diagnostic applications.
Mechanics / Composites: Their short length and high aspect ratio allow effective reinforcement in polymer, ceramic, and metal matrices, improving mechanical strength, toughness, and electrical conductivity of CNT composites.
Electronics: With excellent electrical conductivity (98 S/cm), these CNTs are applied in transistors, flat‑panel displays, and gas‑discharge tubes, supporting miniaturized and high‑performance electronic devices.
Energy Storage: Functionalized double‑walled CNTs serve as conductive additives in lithium batteries and supercapacitors, enhancing charge transport, cycle stability, and energy density.
Catalysis: The large specific surface area (370 m²/g) and hydroxyl groups provide active sites for catalytic reactions, making them suitable as catalyst supports in chemical and electrochemical processes.
Nanotechnology Tools: Their controlled short length and functional groups enable use as nanoprobes, templates, and photoluminescent materials in advanced research and device fabrication.
Hydrogen Storage: The layered structure and functionalization improve adsorption capacity, offering potential for hydrogen storage applications in clean energy systems.
Solar Energy: These CNTs are explored in solar cells as conductive scaffolds and charge transport layers, contributing to higher efficiency in photovoltaic devices.