kimia ( tajuk : nanoteknologi )_tugasan kumpulan sem 1_uthm

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Page 1: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM
Page 2: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

INTRODUCTIONThe science and technology of nanomaterials has created great

excitement and expectations in the last few years. By its very nature, the subject is of immense academic interest, having

to do with very tiny objects in the nanometer regime. There has already been much progress in the synthesis,

assembly and fabrication of nanomaterials, and, equally importantly,

in the potential applications of these materials in a wide variety of

technologies.

Page 3: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM
Page 4: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM
Page 5: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

MEDICINE

The biological and medical research communities have exploited the unique propertiesof Nanomaterials for various applications (e.g., contrast agents for cell imaging and therapeutics for treating cancer).

Page 6: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

DIAGNOSTIC Nanotechnology-on-a-chip is one

more dimension of lab-on-a-chip technology. Biological tests measuring the presence or

activity of selected substances become quicker, more sensitive and more flexible when certain nanoscale particles are put to

work as tags or labels.

Page 7: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM
Page 8: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

DRUG DELIVERYThe overall drug consumption and

side-effects can be lowered significantly by

depositing the active agent in the morbid region only

and in no higher dose than needed. This highly selective approach

reduces costs and human suffering. An example can be

found in dendrimers and nanoporous materials.

Page 9: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

TISSUE ENGENEERINGNanotechnology can help to

reproduce or to repair damaged tissue. This so called “tissue

engineering” makes use of artificially stimulated cell proliferation by using suitable

nanomaterial-based scaffolds and growth factors. Tissue engineering might replace today’s conventional treatments like organ transplants

or artificial implants.

Page 10: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM
Page 11: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

Chemical catalysis and filtration techniques are two prominent examples where nanotechnology already plays a role. The synthesis provides novel materials with tailored features and chemical properties: for example, nanoparticles with a distinct chemical surrounding (ligands), or specific optical properties. In this sense, chemistry is indeed a basic nanoscience. In a short-term perspective, chemistry will provide novel “Nanomaterials” and in the long run, superior processes such as “self-assembly” will enable energy and time preserving strategies.

Page 12: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

 Chemical catalysis benefits especially from nanoparticles, due to the extremely large surface to volume ratio. The application potential of nanoparticles in catalysis ranges from fuel cell to catalytic converters and photo catalytic devices. Catalysis is also important for the production of chemicals.

Page 13: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

A strong influence of nanochemistry on waste-water treatment, air

purification andenergy storage devices is to be expected. Mechanical or chemical methods can be used for effective filtration techniques. One

class of filtration techniques is based on the use of membranes with

suitable whole sizes, whereby the liquid is pressed

through the membrane. Nanoporous membranes are suitable for a

mechanical filtration with extremely small pores smaller than 10 nm (“Nano filtration”) and may be

composed of nanotubes.

Page 14: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

ENERGY

The most advanced nanotechnology projects

related to energy are: storage, conversion,

manufacturing improvements by reducing

materials and process rates,energy saving (by

better thermal insulation for example), and enhanced

renewableenergy sources.

Page 15: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

REDUCTION OF ENERGY CONSUMPTION

Page 16: Kimia ( Tajuk : nanoteknologi )_Tugasan Kumpulan Sem 1_UTHM

Nanotechnology is very useful which can lead us to the highest level of lifestyle and develop the idea of new invention for now and future prospects.

The idea involving nanotechnology can also be tested in many different aspects and create more and more new products day by day.