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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Year of Publication: | 2022 |
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Physical Description: | 1 electronic resource (370 p.) |
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Park, Choon-Sang edt Advances in Plasma Processes for Polymers Basel MDPI - Multidisciplinary Digital Publishing Institute 2022 1 electronic resource (370 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier Open access Unrestricted online access star 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. English Technology: general issues bicssc Chemical engineering bicssc 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 3-0365-3916-6 3-0365-3915-8 Park, Choon-Sang oth |
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English |
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Park, Choon-Sang |
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Park, Choon-Sang |
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Advances in Plasma Processes for Polymers |
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Advances in Plasma Processes for Polymers |
title_full |
Advances in Plasma Processes for Polymers |
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Advances in Plasma Processes for Polymers |
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Advances in Plasma Processes for Polymers |
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Advances in Plasma Processes for Polymers |
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Advances in Plasma Processes for Polymers |
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advances in plasma processes for polymers |
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MDPI - Multidisciplinary Digital Publishing Institute |
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2022 |
physical |
1 electronic resource (370 p.) |
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3-0365-3916-6 3-0365-3915-8 |
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Not Illustrated |
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AT parkchoonsang advancesinplasmaprocessesforpolymers |
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(CKB)5690000000011981 (oapen)https://directory.doabooks.org/handle/20.500.12854/87446 (EXLCZ)995690000000011981 |
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Advances in Plasma Processes for Polymers |
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