مرکز منطقه ای اطلاع رساني علوم و فناوري - Nonequilibrium Plasma Polymerization of HFC-134a in a Dielectric Barrier Discharge Reactor: Polymer Characterization and a Proposed Mechanism for Polymer Formation

DocumentCode :

1765804

Title :

Nonequilibrium Plasma Polymerization of HFC-134a in a Dielectric Barrier Discharge Reactor: Polymer Characterization and a Proposed Mechanism for Polymer Formation

Author :

Kundu, Sazal K. ; Kennedy, Eric M. ; Mackie, John C. ; Holdsworth, Clovia I. ; Molloy, Thomas S. ; Gaikwad, Vaibhav V. ; Dlugogorski, Bogdan Z.

Author_Institution :

Process Safety & Environ. Protection Res. Group, Univ. of Newcastle, Newcastle, NSW, Australia

Volume :

Issue :

fYear :

2014

fDate :

Oct. 2014

Firstpage :

3095

Lastpage :

3100

Abstract :

Nonequilibrium plasma polymerization of hydrofluorocarbon HFC-134a (CF₃CH₂F) in argon bath gas has been studied in a dielectric barrier discharge reactor at atmospheric pressure and in the absence of oxygen and nitrogen. The reaction resulted in the formation of a polymeric solid fraction and the noncrosslinked properties of this material assisted in its characterization by solution state ¹³C and ¹⁹F nuclear magnetic resonance spectroscopy. Gel permeation chromatography revealed that the polymers include low (number average molecular weight, Mn values between 900 and 3000 g mol^-1) and high (Mn approximately 60000 g mol^-1) molecular weight fractions. A detailed polymerization mechanism is proposed, based on the published literature and the findings of the current investigation.

Keywords :

chromatography; dielectric-barrier discharges; molecular weight; nuclear magnetic resonance; plasma chemistry; plasma materials processing; polymerisation; polymers; reaction kinetics; HFC-134a; argon bath gas; atmospheric pressure; dielectric barrier discharge reactor; gel permeation chromatography; hydrofluorocarbon; molecular weight fractions; noncrosslinked properties; nonequilibrium plasma polymerization; polymer characterization; polymer formation mechanism; polymeric solid fraction; pressure 1 atm; solution state ¹³C nuclear magnetic resonance spectroscopy; solution state ¹⁹F nuclear magnetic resonance spectroscopy; Argon; Dielectrics; Discharges (electric); Inductors; Nuclear magnetic resonance; Plasmas; Polymers; Greenhouse gas; hydrofluorocarbon HFC-134a; noncrosslinked polymer; nonequilibrium plasma; polymer characterization; polymer characterization.;

fLanguage :

English

Journal_Title :

Plasma Science, IEEE Transactions on

Publisher :

ieee

ISSN :

0093-3813

Type :

jour

DOI :

10.1109/TPS.2014.2303485

Filename :

6740081

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=1765804