Electrical and Optical Properties of Silicon OxideLignin Polylactide (SiO2-L-PLA).

Jacek Fal,Katarzyna Maria Grąz,Jolanta Sobczak,Mariusz Oleksy,Rafał Kuzioła,Grzegorz Budzik,Katarzyna Bulanda,Julian Traciak,Gaweł Żyła

doi:10.3390/molecules25061354

Abstract

This paper presents a study on the electrical properties of new polylactide-based nanocomposites with the addition of silicon-dioxide–lignin nanoparticles and glycerine as a plasticizer. Four samples were prepared with nanoparticle mass fractions ranging between 0.01 to 0.15 (0.01, 0.05, 0.10, and 0.15), and three samples were prepared without nanoparticle filler—unfilled and unprocessed polylactide, unfilled and processed polylactide, and polylactide with Fusabond and glycerine. All samples were manufactured using the melt mixing extrusion technique and injection molding. Only the unfilled and unprocessed PLA sample was directly prepared by injection molding. Dielectric properties were studied with broadband spectroscopy in a frequency range from 0.1 Hz to 1 MHz in 55 steps designed on a logarithmic scale and a temperature range from 293.15 to 333.15 K with a 5 K step. Optical properties of nanocomposites were measured with UV-VIS spectroscopy at wavelengths from 190 to 1100 nm. The experimental data show that the addition of silicon-dioxide–lignin and glycerine significantly affected the electrical properties of the studied nanocomposites based on polylactide. Permittivity and electrical conductivity show a significant increase with an increasing concentration of nanoparticle filler. The optical properties are also affected by nanofiller and cause an increase in absorbance as the number of silicon-dioxide–lignin nanoparticles increase.

Highlights

Plastics, due to their properties, are popular in almost all areas of our lives, from food packaging to high-end industries
This paper reports on the preparation of SiO2 L-PLA nanocomposites with various mass fractions of filler and their optical and electrical properties studied as a function of temperature and frequency
Nanocomposites based on a blend of polylactide and glycerine with the addition of various mass fractions of silicon-dioxide–lignin (SiO2 L) were prepared by melt blending and injection molding

Summary

Introduction

Due to their properties (e.g., strength, water resistance, thermal and chemical resistance), are popular in almost all areas of our lives, from food packaging to high-end industries. The malleability of plastic allows for objects with sophisticated shapes to be prepared. Plastics are known for their chemical resistance and insulating properties. One of the major reasons for the popularity of plastics is the ratio of the density to the mechanical strength, which is favorable when plastics need to reduce mass and maintain good mechanical properties.

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