Advances in Plasma Processes for Polymers

Advances in Plasma Processes for Polymers

Polymerized nanoparticles and nanofibers can be prepared using various processes, such as chemical synthesis, the electrochemical method, electrospinning, ultrasonic irradiation, hard and soft templates, seeding polymerization, interfacial polymerization, and plasma polymerization. Among these proce...

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Bibliographic Details
Other Authors: Park, Choon-Sang (Editor)
Format: Electronic Book Chapter
Language:English
Published: Basel MDPI - Multidisciplinary Digital Publishing Institute 2022
Subjects:
Technology: general issues
Chemical engineering
polytetrafluoroethylene
fluorine depletion
hydrogen plasma
VUV radiation
surface modification
hydrophilic
polyamide
gaseous plasma
water contact angle
XPS
polyamide membranes
magnetron sputtering
TiO2 + AgO coatings
low-pressure plasma
plasma treatment
polyaniline (PANI)
conductive polymer
plasma polymerization
aniline
atmospheric pressure plasma reactor (AP plasma reactor)
in-situ iodine (I2) doping
atmospheric pressure plasma
filler
polylactic acid
polymer composite
polyethylene
corona discharge
polyethylene glycol
adhesion
polymer
biomedical applications
additive manufacturing
toluidine blue method
enzymatic degradation
microwave discharge
discharges in liquids
microwave discharge in liquid hydrocarbons
methods of generation
plasma properties
gas products
solid products
plasma diagnostics
plasma modeling
room temperature growth
porous polythiophene
conducting polymer
NO2
gas sensors
ion beam sputtering
continuum equation
plasma
sublimation
PA6.6
cold plasma
electrical discharges
voltage multiplier
polymers
oleofobization
paper
cellulose
HMDSO
atmospheric-pressure plasma
solution plasma
polymer films
nanoparticles
surface wettability
graphene oxide
cyclic olefin copolymer
GO reduction
titanium (Ti) alloys
low-temperature plasma polymerization
plasma-fluorocarbon-polymer
anti-adhesive surface
inflammatory/immunological response
intramuscularly implantation
atmospheric pressure plasma jet
dielectric barrier discharge
piezoelectric direct discharge
surface free energy
test ink
surface activation
allyl-substituted cyclic carbonate
free-radical polymerization
plasma process
plasma polymerisation
plasma deposition
poly(lactic acid)
PLA
ascorbic acid
fumaric acid
grafting
wettability
BOPP foil
DCSBD
VDBD
ageing
surface functionalization
atmospheric pressure plasmas
glow-like discharge
single pin electrode
PANI thin film
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Description
Summary:Polymerized nanoparticles and nanofibers can be prepared using various processes, such as chemical synthesis, the electrochemical method, electrospinning, ultrasonic irradiation, hard and soft templates, seeding polymerization, interfacial polymerization, and plasma polymerization. Among these processes, plasma polymerization and aerosol-through-plasma (A-T-P) processes have versatile advantages, especially due to them being "dry", for the deposition of plasma polymer films and carbon-based materials with functional properties suitable for a wide range of applications, such as electronic and optical devices, protective coatings, and biomedical materials. Furthermore, it is well known that plasma polymers are highly cross-linked, pinhole free, branched, insoluble, and adhere well to most substrates. In order to synthesize the polymer films using the plasma processes, therefore, it is very important to increase the density and electron temperature of plasma during plasma polymerization.
Physical Description:1 electronic resource (370 p.)
ISBN:books978-3-0365-3915-7
9783036539164
9783036539157
Access:Open Access

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