Download App
Google Android
Apple iOS
Huawei
English
English
Malay
Guest
Login
Register
Home
Quiz
Battle
Practice
Class
Classes List
Timetable
Assignments
Learn
Learning Hub
Quick Notes
Videos
Experiments
Textbooks
Login
Register
Download App
Google Android
Apple iOS
Huawei
EN
MS
Learn
Quick Notes
List
Describe nanotechnology with examples and its application in daily life
Application of Nanotechnology in Industry
5.5
Application of Nanotechnology in Indutry
Definisi of Nanosscience
Study on the processing of substances at the nanoscale that is between 1 nanometre and 100 nanometres.
Definisi of Nanotechnology
Development of substances or gadgets using the properties of nanoparticles.
Size Comparison between Different Materials
Application of Nanotechnology in Daily Life
Semiconductor and Electronic
Smaller and more efficient semiconductors.
High conductivity wiring system.
Energy and Electricity
Smaller and more efficient solar cells.
Long-lasting batteries.
Textile
Water, fire and dirt resistant fabrics.
Ani-wrinkle and UV protective fabrics.
Medical
Highly sensitive testing devices.
More effective drug delivery system.
Agricultural
More effective pesticides.
Highly efficient and thorough fertilisation.
Food
Nanoscale food additives.
Anti-microbial food packaging.
Development in the Field of Nanotechnology
The coverage of the field of nanotechnology is very wide, crossing various disciplines, including:
Physics
Chemistry
Biology
Medicine
Engineering
This contributes to the rapid research and development on applications of nanotechnology in various aspects of life.
As an example, a material that has become one of the main focuses is:
A carbon derivative that is known as graphene.
Graphene is one of the carbon allotropes, other than diamond and graphite, but has different characteristics from the rest.
The size of graphene measures from 0.1 nm, which makes graphene among the most important materials in nanoscience and nanotechnology.
Graphene sheets can be converted into other materials, including graphites, carbon nanotubes and fullerene balls.
Graphene
Graphene is one of the allotropes for carbon besides diamond and graphite.
Yet they have very different properties from each other
The 0.1 mm size of graphene makes graphene one of the important materials in the field of nanoscience and nanotechnology.
Graphene sheets can produce a variety of other materials including:
Graphite
Carbon nanotubes
Fullerene balls
Chemical Properties of Graphene
Graphene sheets burn at a lower temperature than graphite
The most reactive carbon allotropes.
The chemical reaction of graphene is still being studied by researchers.
Uses of Graphene
Electronics
The arrangement of atoms in graphene makes it a superior conductor.
Censor
Graphene has a high surface area.
Biomedicals
Sensors, tissue engineering, drug delivery systems.
Polymers and Composite
The high mechanical strength makes graphene suitable as a polymer composite material.
Membrane
Water filtration.
Separation of water from gas mixtures.
Energy
Longer lasting, flexible and powerful battery.
Supercapacitor.
Application of Nanotechnology in Industry
5.5
Application of Nanotechnology in Indutry
Definisi of Nanosscience
Study on the processing of substances at the nanoscale that is between 1 nanometre and 100 nanometres.
Definisi of Nanotechnology
Development of substances or gadgets using the properties of nanoparticles.
Size Comparison between Different Materials
Application of Nanotechnology in Daily Life
Semiconductor and Electronic
Smaller and more efficient semiconductors.
High conductivity wiring system.
Energy and Electricity
Smaller and more efficient solar cells.
Long-lasting batteries.
Textile
Water, fire and dirt resistant fabrics.
Ani-wrinkle and UV protective fabrics.
Medical
Highly sensitive testing devices.
More effective drug delivery system.
Agricultural
More effective pesticides.
Highly efficient and thorough fertilisation.
Food
Nanoscale food additives.
Anti-microbial food packaging.
Development in the Field of Nanotechnology
The coverage of the field of nanotechnology is very wide, crossing various disciplines, including:
Physics
Chemistry
Biology
Medicine
Engineering
This contributes to the rapid research and development on applications of nanotechnology in various aspects of life.
As an example, a material that has become one of the main focuses is:
A carbon derivative that is known as graphene.
Graphene is one of the carbon allotropes, other than diamond and graphite, but has different characteristics from the rest.
The size of graphene measures from 0.1 nm, which makes graphene among the most important materials in nanoscience and nanotechnology.
Graphene sheets can be converted into other materials, including graphites, carbon nanotubes and fullerene balls.
Graphene
Graphene is one of the allotropes for carbon besides diamond and graphite.
Yet they have very different properties from each other
The 0.1 mm size of graphene makes graphene one of the important materials in the field of nanoscience and nanotechnology.
Graphene sheets can produce a variety of other materials including:
Graphite
Carbon nanotubes
Fullerene balls
Chemical Properties of Graphene
Graphene sheets burn at a lower temperature than graphite
The most reactive carbon allotropes.
The chemical reaction of graphene is still being studied by researchers.
Uses of Graphene
Electronics
The arrangement of atoms in graphene makes it a superior conductor.
Censor
Graphene has a high surface area.
Biomedicals
Sensors, tissue engineering, drug delivery systems.
Polymers and Composite
The high mechanical strength makes graphene suitable as a polymer composite material.
Membrane
Water filtration.
Separation of water from gas mixtures.
Energy
Longer lasting, flexible and powerful battery.
Supercapacitor.
Chapter : Consumers and Industrial Chemistry
Topic : Describe nanotechnology with examples and its application in daily life
Form 5
Chemistry
View all notes for Chemistry Form 5
Related notes
Oils and Fats
Cleaning Agents
Food Additives
Medicines and Cosmetics
Application of Green Technology in Management of Industrial Wastes
Redox Reaction
Standard Electrode Potential
Voltaic Cell
Electrolytic Cell
Extraction of Metals from its Ore
Report this note
Quiz Battle
Challenge your friend in timed Quiz battle
Learn more
Register for a free Pandai account now
Edit content
×
Loading...
Quiz
Videos
Notes
Account