- Polyaniline (PANI) is a conducting polymer
of the semi-flexible rod polymer family. Polyaniline is among a
family of conductive polymers, and has properties similar to some
metals. Amongst the family of conducting polymers and organic
semiconductors, polyaniline is unique due to its ease of synthesis,
environmental stability, and simple doping/dedoping chemistry.
- It was discovered as “aniline black” in an
organic form as part of melanin, a type of organic polymer in 1934.
- Melanin does many things in nature,
including protecting the skin by regulating UV exposure through a
polyaniline interaction. In a natural form, polyaniline is usually
found folded with other polymers. In
the late 1990s it became evident that polyaniline was a flexible and
highly useful polymer, and could be used in applications ranging
from intelligent windows to computer chips.
- Polyaniline is a unique type of polymer
because it is a type of semiconductor. Polyaniline can be configured
to conduct across a wide range, from being utterly non-
conductive for insulation use to highly conductive for other
electrical purposes.
- Polyaniline, like other polymers, is
highly flexible, which makes it appealing for manufacturing use.
- Polyaniline comes in a granular form which
can be mixed with an organic chemical and painted or sprayed onto a
substance to form a smooth layer of polyaniline. It can also be
molded into various shapes, as was done in 2000 when it was used to
manufacture a computer chip.
- Polyaniline is used in a variety of
applications, because it can be easily combined with other polymers
to form desired shapes. It is frequently utilized in the computer
industry where it is incorporated into static free packaging,
flexible electronic components, and in testing to shield against
electromagnetic radiation.
- Polyaniline also appears in construction
applications, and is frequently included in corrosion resistant
treatments for various surfaces.
- The conductivity of polyaniline makes it
an ideal shield against discharges of static electricity. That is
why polyaniline compounds have been used in the packaging of
electronics products.
- The potential of conducting polymers was
recognised in 2000 by the Nobel Committee, which awarded the 2000
Prize in chemistry to the three inventors of conducting polymers.
Their article on the topic was published in 1977.
- Their subsequent research has led to the
formation of joint venture companies, several patents, polymer
diodes and electroluminescent devices as well as producing the
world’s first organic light-emitting diode displays.
- Polyaniline is more noble than Copper and
slightly less noble than Silver which is the basis for its broad use
in printed circuit board manufacturing (as a final finish) and in
corrosion protection.
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Introduction
- Polyaniline
- What is
Polyaniline
- A
General Chemical Route to Polyaniline Nanofibers
- Aligned and
oriented polyaniline nanofibers
-
Antimicrobial polyaniline based polymers
- Polyaniline
- A conductive polymer
MSDS
& Product
- Polypolaron
MSDS
- Emeraldine
base MSDS
- Polyaniline
(Emeraldine salt) MSDS
-
Emeraldine
- Emeraldine
base
- Polypolaron
Patent
- Process for
preparation of conducting polyaniline
- Polyaniline
- Polyaniline
coating composition
-
Electrically conductive polyaniline
- Method for
preparing polyaniline
- Doped
polyaniline solutions
- Polyaniline
gas sensor
- Spinning,
doping, dedoping and redoping polyaniline fiber
- High
capacity polyaniline electrodes
Synthesis
- Synthesis
and characterization of polyaniline
-
Polyaniline/TiO2 Nanocomposite: Enzymatic Synthesis and
Electrochemical Properties
- Synthesis
and Characterization of Polyaniline/Gold Nanocomposites
- Synthesis
of Nano Conducting Polymer Based Polyaniline and it's
Composite
- Preparation
of a conducting polymer
- Polyaniline
Nanofibers: Facile Synthesis and Chemical Sensors
Project
-
Polyaniline
boronic acid based CO2 sensor
-
An update on
Polycond project
-
Adaptive
Polyaniline Nanostructures for Application as a Sensor
Platform
-
Recommendations
for preparation of conducting polymer and its colloidal form
-
Infrared
spectroscopy of conducting polymer nanotubes
Research
-
Polyaniline:TiO2 Nanocomposites: Synthesis and
Characterization
- A review of
gas sensors employed in electronic nose applications
- Growth,
characterization and gas sensing properties of polyaniline
thin films
- Polyaniline
and mineral clay-based conductive composites
- Polyaniline
synthesized with functionalized sulfonic acids for blends
manufacture
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Turnkey service provider &
Suppliers
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Turnkey service
provider from Michigan
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Manufacturers of Polyaniline
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Suppliers of Polyaniline
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Exporters of Polyaniline
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Polyaniline Suppliers
Raw
material suppliers
- Ammonium
peroxydisulfate
- Aniline
hydrochloride
- Glass beaker
- Volumetric
flask
Company
& Consultancy
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Company
from Canada
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from
China
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Company
from
Hampshire
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Company
from
Massachusetts
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from U.K
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Company1
from
U.S.A
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Company2
from
U.S.A
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Consultancy from
Minneapolis
Study
- Remote
detection of gaseous ammonia using the near infrared
transmission properties of polyaniline
- Nanofibers of
polyaniline synthesized by interfacial polymerization
- Polyaniline
based anticorrosive and anti-molding coating
-
Polyaniline/single-walled carbon nanotube composite electronic
devices
- Gas Sensors
Based on Conducting Polymers
- Electrical and
mechanical properties of polyaniline fibres produced by a
one-step wet spinning process
- Electrospinning
Nanofibers of Polyaniline and Polyaniline / (Polystyrene and
Polyethylene Oxide) Blends
- Polyaniline :
Thin films and colloidal dispersions
- A new design
for dry polyaniline rechargeable batteries
- Polyaniline
Conducting Electroactive Polymers: Thermal and Environmental
Stability Studies
-
Neste to market
polyaniline technology through Panipol
Report
- Oriented growth
of self assembled polyaniline nanowire arrays using a novel
method
- The morphology
control of polyaniline as conducting polymer in fuel cell
technology
- Low-temperature
heat capacities of polyaniline and polyaniline
polymethylmethacrylate blends
- Improved
Surface Characteristics and the Conductivity of
Polyaniline–Nylon 6 Fabrics by Plasma Treatment
- Environmental
applications of metal oxide/polymer carbon nanocomposites
-
Electrochemically Deposited Polyaniline Nanowire’s Network
-
Polyaniline/single-walled carbon nanotube composite electronic
devices
- Polyaniline
based anticorrosive and anti-molding coating
- Polyaniline
Based Materials for Efficient EMI Shielding
- BF3-doped
polyaniline: A novel conducting polymer
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