Understanding Nanotechnology and Nanomaterials
Explore the world of nanotechnology and nanomaterials, delving into the realm of tiny dimensions and their fascinating properties. Learn about the significance of nanoscale materials and the field of nanotechnology in manipulating matter on an atomic scale.
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Nanotechnology 1 25/10/2016
Nanoscince and Nanotechnology The word nano is a Greek prefix meaning dwarf or something very small and depicts one billionth (10-9) of a unit. Nanomaterials, therefore, refer to the class of materials with at least one of the dimensions in the nanometricrange. 1 25/10/2016
In the case of polycrystalline materials, the grain size is typically of the order of 1 100 microns (1 micron = 10-6m). Nanocrystalline materials have a grain size of the order of 1 100 nm, and are therefore 100 1000 times smaller than conventional grain dimensions, so, they can no longer be treated as infinite systems and the resultant boundary effects lead to fascinating and useful properties, which can be explored and tailored for a variety of structural and functional applications. 3 25/10/2016
nanomaterials may be classified as those materials which have at least one of their dimensions in the nanometric range, below which there is significant variation in the property of interest compared materials. Nanomaterials can be metals, ceramics, polymers or composites. Nanotechnology is an umbrella term for many areas of research dealing with objects that have one of their dimensions in the realm of a few hundreds of nanometres. The term nanotechnology was first coined by NorioTaniguchi in 1974. Table (1) referto thesmall scales. to microcrystalline 4 25/10/2016
Table (1):- The world of small dimensions Number Name 0.1 deci 0.01 centi 0.001 milli 0.000 001 micro 0.000 000 001 nano 0.000 000 000 001 pico 0.000 000 000 000 001 femto 0.000 000 000 000 000 001 atto 0.000 000 000 000 000 000 001 zepto 0.000 000 000 000 000 000 000 001 yocto Symbol d c m n p f a z y 5 25/10/2016
Important terms:- Nanomaterial: class of materials in which at least one of the dimensions is on the nanoscale (<100 nm) Nanotechnology: study of manipulating matter on an atomic and molecular scale; generally deals with structures sized between 1 and 100 nanometres in at least one dimension, and involves developing materials or devices possessing at least one dimension within that size. 6 25/10/2016
Nanosize and Properties When particle sizes of solid matter in the visible scale are compared to what can be seen in a regular optical microscope, there is little difference in the properties of the particles. But when particles are created with dimensions of about 1 100 nanometers (where the particles can be seen only with powerful specialized microscopes), the materials significantly from those at larger scales. This is the size scale where so-called quantum effects rule the behavior and properties of particles. Properties of materials are size-dependent in this scale range. Thus, when particle size is made to be nanoscale, properties such as melting point, fluorescence, electrical conductivity, magnetic permeability, and chemical reactivity change as a function of the size of the particle. properties change 7 25/10/2016
Nanoscale gold illustrates the unique properties that occur at the nanoscale. Nanoscale gold particles are not the yellow colour with which we are familiar; nanoscale gold can appear red or purple. At the nanoscale, the motion of the gold s electrons is confined. Because this movement is restricted, gold nanoparticles react differently with light compared to larger-scale gold particles. In fact, gold can be used as a prime example: a colloid of gold nanoparticles is no longer golden but ruby-red in colouras in figure (1). 8 25/10/2016
Figure (1):- The effect of nanosized particles on the colourof gold. 9 25/10/2016
Nanoscale materials have far larger surface areas than similar masses of larger-scale materials. As surface area per mass of a material increases, a greater amount of the material can come into contact with surrounding materials, thusaffecting reactivity. If a bulk material is subdivided into an ensemble of individual nanomaterials, the total volume remains the same, but the collective surface area is greatly increased. This is shown schematically in figure (2). 10 25/10/2016
Figure 2: Schematic drawing showing how surface to volume increasesassize is decreased. 11 25/10/2016
The consequence is that the surface-to-volume ratio of the material compared to that of the parent bulk material is increased. How would the total surface area increase if a cube of 1 m3 were progressively cut into smaller and smaller cubes, until it is composed of 1 nm3cubes? Table (2) summarizes the results. Table (2). 12 25/10/2016
Table (2). 13 25/10/2016
