Carbon Nanotube and Carbon Fibers

- Overview

Carbon nanotubes (CNTs) are individual, nanoscale tubes with superior strength, stiffness, and conductivity, essentially rolled-up graphene sheets, while carbon fiber (CF) consists of much larger, macroscopic strands of aligned carbon crystals, bundled and used in composites for general structural reinforcement. 

The key difference is scale and structure: CNTs are atomically precise cylinders (nanometers) with exceptional properties, ideal for high-tech enhancements, whereas CF is a macroscopic fiber (micrometers) providing bulk strength in traditional composites, though CNTs are increasingly used to improve CF composites. 

1. Carbon Nanotubes (CNTs):

• Structure: Hollow cylinders of rolled-up graphene sheets, single-walled (SWCNT) or multi-walled (MWCNT).
• Size: Extremely small (1-100 nm diameter).
• Properties: Highest known tensile strength and stiffness, excellent electrical/thermal conductivity, high aspect ratio, very ductile.
• Applications: Electronics, sensors, advanced composites, biomedical devices, energy storage (still largely emerging).

2. Carbon Fiber (CF):

• Structure: Bundles of long, crystalline carbon filaments (micrometers thick).
• Size: Much larger than CNTs.
• Properties: High tensile strength, stiff but brittle (lacks flexibility for sudden impacts), commonly used in epoxy matrices (CFR-Polymer).
• Applications: Aerospace, automotive, sporting goods, construction (as a composite material).

3. Key Differences Summarized: 

• Scale: Nanometers (CNTs) vs. Micrometers (CF).
• Strength: CNTs are theoretically stronger and stiffer (4x CF strength-to-weight).
• Flexibility: CF is rigid and brittle; CNTs are more ductile.
• Use: CF provides bulk strength; CNTs offer advanced functional enhancement when added to materials like CF composites.
• Cost: CF is generally more cost-effective for large-scale structural use; CNTs are still expensive but becoming more feasible.

- Nanotubes

Nanotubes are nanoscale, hollow, tube-like structures, most famously carbon nanotubes (CNTs), which are cylindrical carbon molecules stronger than steel, excellent conductors of heat/electricity, and have unique electronic properties, functioning as semiconductors or metals depending on their "chirality," with applications in electronics, composites, medicine, and energy storage, categorized as single-walled (SWNTs) or multi-walled (MWNTs). 

1. Key Characteristics & Properties:

• Structure: Essentially rolled-up sheets of graphene (chicken-wire pattern of carbon atoms).
• Strength: Over 100 times stronger than steel but lighter, allowing them to strengthen materials.
• Conductivity: Can conduct electricity and heat better than copper.
• Electronic Behavior: Act as semiconductors or metals, determined by how the graphene sheet is rolled (chirality).
• Size: Extremely thin (nanometers) but can be very long (microns to millimeters).

2. Types:

• Single-Walled Nanotubes (SWNTs): One layer of graphene rolled into a tube.
• Multi-Walled Nanotubes (MWNTs): Multiple SWNTs nested inside each other.

• Materials: Reinforcing polymers, anti-static materials, composite materials.
• Electronics: Displays, sensors, transistors.
• Energy: Batteries, fuel cells, energy storage flywheels, solar cells.
• Medicine: Drug delivery, artificial implants, tissue engineering.