Antistatic surface properties of plastics using donor-accepter molecular compounding antistatic agent

Abstract: Abstract In order to obtain transparent plastic material with antistatic property for optical communication application, cyclo olefin polymer (COP)/BN105 composite materials prepared by using injection molding have been evaluated. Surface resistance of the molded product decreased to 2×1011 Ω/sq along with an increase in BN105 content range up to 2 wt%. The samples showed excellent property to prevent the surface from dust adhesion. In addition, the samples… Show more

“…Currently, the following methods are mainly employed to endow the PMMA with better antistatic properties, such as surface coating, adding conductive filler, blending conductive polymer, adding antistatic agent, − etc., but these methods have certain limitations . Most conductive fillers have the characteristics of high density and poor transparency, which often greatly worsens the high transparency of PMMA; , owing to its high rigidity, molding difficulty, and poor compatibility, which limits the practical application of conductive polymers; internal additive antistatic agents can be divided into amphoteric antistatic agents, nonionic antistatic agents, anionic antistatic agents, and cationic antistatic agents according to their chemical structures. ,, Sano et al synthesized an amphoteric antistatic agent with an ammonium sulfonate group and used it in the antistatic modification of polyethylene terephthalate (PET) and polyamide 6 (PA6).…”

Fabrication of Permanent Antistatic PMMA Copolymer for Enhanced Antistatic and Mechanical Properties

“…Currently, the following methods are mainly employed to endow the PMMA with better antistatic properties, such as surface coating, adding conductive filler, blending conductive polymer, adding antistatic agent, − etc., but these methods have certain limitations . Most conductive fillers have the characteristics of high density and poor transparency, which often greatly worsens the high transparency of PMMA; , owing to its high rigidity, molding difficulty, and poor compatibility, which limits the practical application of conductive polymers; internal additive antistatic agents can be divided into amphoteric antistatic agents, nonionic antistatic agents, anionic antistatic agents, and cationic antistatic agents according to their chemical structures. ,, Sano et al synthesized an amphoteric antistatic agent with an ammonium sulfonate group and used it in the antistatic modification of polyethylene terephthalate (PET) and polyamide 6 (PA6).…”

Fabrication of Permanent Antistatic PMMA Copolymer for Enhanced Antistatic and Mechanical Properties

“…Furthermore, even if the fillers are affordable, in most cases, they compromise other performances. Therefore, it is worth stressing that most research is still based on these two methods, and nothing can be done, bearing a series of drawbacks so far. ,− Hence, finding a permanent and degradation-free method to prevent ESD is urgent and imperative.…”

Application of Displacement-Current-Governed Triboelectric Nanogenerator in an Electrostatic Discharge Protection System for the Next-Generation Green Tire

Fibers of Ultra-High Molecular Weight Polyethylene Obtained by Gel Spinning with Polyalphaolefin Oil