When you hear the word'Nano Particles', you can immediately think of some kind of engineering lab for playing computer technology or the next big electronics. But actually, you have a nanoparticle in your sunscreen, deodorant and tennis racket - you're probably surrounded by nanoparticle every day!


 Nano Particles are small pieces of tiny material that they measure in nanometers. If you think 'nano' prefix means 'one billion' this that small! But don't let their size fool you, because nanotechnologies, the use, and control of nanotechnologies, are big business.

 This is because nanoparticle particles are so unique. These juvenile, tiny particles have different properties compared to larger particle parts. Nanotechnology is capable of taking advantage of these and scalable materials on a very small scale to create the properties they are most interested in. This may include making any material lighter, more durable, more responsive or more conductive.
These nanotechnologies make us very useful in our day-to-day life, but also carry some risks. This is a very important thing we need to know about if we want to stay healthy. Let's take a look.
Introduction: The particle interfacial layer between the interfacial layered size of 1 and 100 nanometers (nm) around the nanoparticles is an integral part of the nanoscale material; it mainly affects all its properties. Inorganic nanoparticles are known as inorganic nano-particle stabilizers, capping and surface ligands or passivating agents.

 Definition: A nanoparticle cells are defined as nano-objects with three external dimensions on the nanoscale, whose longest and shortest axis do not typically differ significantly with a significant difference as a factor of at least 3.

 Size of Nano Particles: Nano Particles are particles in nanotechnology between 1 and 100 nanometers of interfacial layered size, a particle is defined as a small object that is capable of transporting andThe PF diameter in terms of terms, which behaves as a whole unit of properties, has a wide range of fine particles ranging from 1 to 25 nanometers, while ultrafine particles are sized between 1 and 100 nanometers an Can not exhibit size-related properties seen in nanoparticle amines or fine particles. .

 Why we use Nano-Particles: Nano Particles can help reduce the power consumption of electronics by reducing the weight and thickness of electronic screens and increasing speed.

 How Nano Particles Are Constructed: Nano Particles are formed by the breakdown of larger particles or by controlled assembly processes, such as natural phenomena and many human industries and domestic activities such as kitchen production or road and air transport are related to the nanoparticle in the atmosphere.
There are two approaches to producing nanomaterials:
1. The top-down approach involves the breakdown of large pieces of materials to create the required nanostructures from them. This method is particularly suitable for fabricating interconnected and integrated structures such as electronic circuitry.

 2. In the bottom-up approach, single atoms and molecules combine into larger nanostructures. This is a very powerful method of making identical structures with atomic precision, although to date, man-made materials are still much more complex than nature.
Source of Nano Particles: The natural sources of nano particulates include combustion products forest fires, volcanic ash, ocean spray and the radioactive decay of random gas. Natural nanomaterials can also be formed at any one rocks as well as at acid mine extraction sites.
Types of Nano Particles: Nano Particles can be classified into different types according to size, shape, physical and chemical properties.

 Some of them
• Carbon-base Nano Particles
 Semiconductor Nano Particles
 Lipid-based Nano Particles.
• Ceramic Nano Particles
• Metal-based Nano Particles
Y Polymeric Nano Particles.

 How Nano Particles Enter the Body: Nano Particles enter the body, crossing any of its outer layers, the lining or intestines of any one's skin or lungs. Once inside will depend on the specific physical and chemical flows of the interior.


 Impact of Nano-Particles on the Human Body: The Effect of Nano-Particles on the form can include lung inflammation, and breathing in diesel scissors produces a common inflammatory response as an irregular function in the cardiovascular system, such as controlling the heart rate.
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