NOKIA MORPH TECHNOLOGY SUBMITTED BY- MOHD. AFZAL RIZVI CSE-A Roll NO-1203310106
Transcript
1. NOKIA MORPH TECHNOLOGY SUBMITTED BY- MOHD. AFZAL RIZVI CSE-A
Roll NO-1203310106
2. CONTENTS 1. INTRODUCTION 2. WHAT IS MORPH..? 3. HISTORY 4.
NANOTECHNOLOGY 5. FEATURES 6. ADVANTAGES 7. DISADVANTAGES
3. INTRODUCTION 1.The Nokia Morph is a theoretical future
device based on NANOTECHNOLOGY that might enable future
communication devices. 2.Morph also demonstrates how future mobile
devices might be stretchable, flexible, transparent and self
cleaning.
4. What is Morph? THE WORD MORPH MEANS :- Transform Quickly
Change Shape Morph is a concept that demonstrates how future mobile
devices might be stretchable and flexible, allowing the user to
transform their mobile device into radically different shapes. It
demonstrates the ultimate functionality that nanotechnology might
be capable of delivering.
5. HISTORY 1.The concept of NOKIA MORPH has been introduced to
the global world at the Museum of Modern Art (MoMA) as part of the
"Design and the Elastic Mind" exhibition. 2.The concept emerged
through collaboration between Nokia Research Center and Cambridge
University Nanoscience Center in the UK. Nokia Research Center
Nanoscience Center
6. NANOTECHNOLOGY means The science, engineering and technology
related to the understanding and control of matter at the length
scale of approximately 1 to 100 nanometers. NANOTECHNOLOGY allows
control of physical properties of nanostructures and devices with
single molecule precision. NANOTECHNOLOGY
7. VARIOUS NANOTECHNOLOGIES USED IN MORPH Molecular
Nanotechnology (MNT) Advanced Power Sources Density Batteries Super
capacitors Solar Cell Research NEMS Method Nanograss ZnO Nanowires
Nanowire Lithography(NWL) on silicon
8. Nanotechnology Sensing Nanoscale Grass Features of Morph
Concept Self-Cleaning Transparent- Electronics Haptic-Surface
Wearable-Device Recycling Stretchable Spider-Silk
9. SENSING Morph can sense its surrounding . Empower users to
examine the environment around them in completely new ways, from
analyzing air pollution, to gaining insight into bio- chemical
traces and processes Nanoscale sensors with improved resolution and
the stability forms the building block. In order to improve sensor
and signal processing characteristics Nokia introduced NanoWire
Lithography (NWL) process that fabricates a large area and self
aligned 3D architectures. It has Nanocomponents having an immense
surface areato-volume ratio, allowing plenty of space for chemical
reactions that enable robust chemical and biochemical sensing Our
ability to tune into our environment in these ways can help us make
key decisions that guide our daily actions and ultimately can
enhance our health.
10. Nanoscale grass Nanowire grass harvests solar energy that
charges up the device. At the same time new high energy density
storage materials allow batteries to become smaller and thinner,
while also quicker to recharge and able to endure more charging
cycles. NOKIA developed a full solid state flexible DYE SENSITIZED
SOLAR CELL (DSSC) using ZnO Nanostructures which act as
photovoltaic for this purpose.
11. Self cleaning The surface of Morph is superhydrophobic.
Naturally repel water, dirt, and even fingerprints Nanostructured
surfaces, such asNanoflowers are used for this purpose Based on the
LOTUS EFFECT in which Microscopic bumps on a lotus leaf transform
its waxy surface into an extremely water repellent, or
superhydrophobic, material. A Nanoflower
12. Strechable and Flexible The nanoscale structure of the
electronics enables stretching. Nokia are developing thin film
electronic circuits and architecture supported on elastomeric
substrates which are robust enough to allow multi directional
stretching.
13. 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.
14. Transparent Electronics The whole electronic circuit inside
NOKIA morph is entirely transparent. Nanoscale electronics becomes
invisible to the human eye.
15. 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.
16. Wearable Device Can be used as a wrist watch or band
17. Recycling Utilization of biodegradable materials might make
production and recycling of devices easier and ecologically
friendly.
18. VIDEO
19. ADVANTAGES Utilization of biodegradable materials might
make production and recycling of devices easier and ecologically
friendly Low Power cost due to built-in solar absorption that might
charge the device making batteries smaller, longer lasting and
faster to charge and hence making the phone less bulky Helps to
learn more about the environment around us, empowering us to make
better choices Stretchable and flexible electronics. Transparent
electronics. Self-cleaning surfaces
20. DISADVANTAGES Due to the granular structure, nano particles
can go unnoticed on a persons hand, but the risk of inhaling this
could be very dangerous. This can duly be a cause of death. Lack of
a reliable power source: Nokia is still searching new battery
materials to power the Morph. This is a significant technical
drawback that Nokia has to overcome before launching this concept.
Conventional dsscs provides instability related to solvent Leakage
and evaporation. Overpriced