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Light and Nanotechnology : How Do we “See” Something Too Small to See?

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Presentation on theme: "Light and Nanotechnology : How Do we “See” Something Too Small to See?"— Presentation transcript:

1 Light and Nanotechnology : How Do we “See” Something Too Small to See?
Laboratory 04 Light and Nanotechnology : How Do we “See” Something Too Small to See?

2 Objectives Measure the width of a human hair using a laser pointer and diffraction. • Synthesize silver nanoparticles, and investigate how color is related to particles.

3 Nanotechnology Nanotechnology is the technology for design, fabrication and manipulation of nanometre scale systems, in the scale of nm

4 Human hair thickness ~ 50 µm
How Small is nano ? 1 µm = one millionth of a meter 1 nm = one billionth of a meter ≈ 1/50,000 thickness of a hair! ≈ a string of 3 atoms If we shrunk all distances by 110,000,000,000 X The sun and earth would be separated by 1 m A football field would be 1 nm Human hair thickness ~ 50 µm 110 m 110,000,000 km

5 Why Nanomaterials ? High Aspect ratio Quantum Effect

6 Properties of Nanomaterials
Enhanced electrical and heat conductivity Increased strength, tensile properties Magnetic properties Optical properties – color changes with size

7 Silver Nanoparticles Size: 10nm-100nm Chemical formula: Ag
Details: Silver nanoparticles are ultra fine particles of silver. They are ten to a hundred nanometers large, and differ from the bulk silver as they have different colors such as yellow, as opposed to the silver. This is due to plasmon absorbance: Incident light rays create oscillation in free electrons on the surface of nanoparticles, causing them to absorb electromagnetic radiation, creating different colors reflected.

8 Synthesis of Silver nanoparticles
Reduction method Ag + → Ag (Reducing agent NaBH4) Ag atoms will stick together to form small particles. Addition of citrate- Act as a buffer to control pH Act as a binding agent to limit the growing of nanoparticls Addition of hydrogen peroxide- Act as a etching agent , remove silver atoms from less stable nanoparticles. Silver nanoprism is formed. Bromide is added to control the size of the nanoprisms.

9 Diffraction of light through a single slit
y W L w sin Ɵ = n λ tan Ɵ = y / L In this lab, a variation of single slit diffraction is used to measure the width of a human hair; instead of a single slit in a wall.

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