12-06-2014, 11:59 AM
NOKIA MORPH THE FUTURE OF MOBILES REPORT
NOKIA MORPH.pdf (Size: 1.41 MB / Downloads: 9)
INTRODUCTION
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The “Nokia Morph” is a theoretical future
device based on NANOTECHNOLOGY that might
enable future communication devices.
Morph also demonstrates how future mobile
devices might be stretchable, flexible,
transparent and self cleaning.
Nanotechnology
“The
science, engineering and
technology related to the
understanding and control of
matter at the length scale of
approximately 1 to 100
nanometers”.
“The
science, engineering and
technology related to the
understanding and control of
matter at the length scale of
approximately 1 to 100
nanometers”.
SENSING
OBSERVE OUR LOCAL ENVIRONMENT THAT INCLUDES
ANALYZING POLLUTIONS ,TEMPERATURE etc.
NANOSENSORS CONSTRUCT A COMPLETE AWARNESS OF THE
USER CONTEXT –BOTH PERSONAL AND ENVIRONMENTAL
ENABLING AN APPROPRIATE AND INTELLIGENT RESPONSE.
INORDER TO IMPROVE SENSOR AND SIGNAL PROCESING
CHARACTERISTICS NOKIA INTRODUCED NANOWIRE
LITHOGRAPHY (NWL) PROCESS THAT FABRICATES A LARGE
AREA AND SELF ALIGNED 3D ARCHITECTURES.
HAPTIC SURFACE
Touch sensitive and responsive [haptic] surface of NOKIA morph is provided
by large area sensing surfaces using piezoelectric nanowire arrays.
ZnO nanowires are used to produce the piezoelectric nanowire arrays.
Buttons on the device surface are real 3D forms.
SELF CLEANING
NANOFLOWER
The surface of morph is superhydrophobic that makes it extremely
dirt repellent.
Nanostructured surface known as nanoflowers that naturally repel
water, dirt and even finger-prints is used here.
ADVANCED POWER SOURCES
Enhanced energy density batteries (quicker recharge ).
Polymer CNT composites with controlled conduction, nanotube
enhanced supercapacitors and nano composite solar cells etc acts as
the power sources.
Nanoenhanced dielectrics as separator and high power capacitors.
STRENGTH OF SPIDER SILK
A nanoscale mesh of fibers similar to spider silk controls the stretching
when device is folded.
Fibril proteins are woven into a three dimensional mesh that
reinforces thin elastic structures.
NANOSCALE FIBRES
STRENGTH OF SPIDER SILK
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TRRAM
Transparent Resistive Random Access Memory (TRRAM) developed
by Korean Advanced Institute of Science and Technology (KAIST) as
the major platform for the transparent electronics concept of morph.
By integrating TRRAM device with other transparent electronic
components a total see through embedded electronic system could be
developed.
TRRAM records data by changing the resistance of a metal oxide
film known as Resistive Ram.
CONCLUSION
Now you know…
• What is Morph?
• How it evolved?
• What technology is used?
• What are its features?
• What are its limitations?
• What future scope does it have?