Nanocrystalline Cellulose as Effect Pigment in Clear Coatings for Wood

Mirela Simona Vlad-Cristea,Pierre Blanchet,Claudiane Ouellet-Plamondon,Véronic Landry

doi:10.1155/2013/930236

Mirela Simona Vlad-Cristea, Pierre Blanchet + Show 2 more

Open Access

https://doi.org/10.1155/2013/930236

Copy DOI

Journal: ISRN Nanomaterials	Publication Date: Aug 27, 2013
Citations: 12	License type: CC BY 3.0

Affiliation: FPInnovations, Université Laval, ETH Zurich

Abstract

Nanocrystalline cellulose (CNC) is a renewable material with high potential in many applications. Due to its unique self-assembly and optical properties, CNC tends to behave as an iridescent pigment. The aim of this research was to explore the potential of CNC as an effect pigment in wood coatings. CNC-based coatings were developed from an aqueous CNC solution, a UV-curable water-based clear coating formulation, several colorants, and specialized additives. In this paper, the morphology of the resulting CNC films was investigated through circular dichroism and optical microscopy under polarized light. The effect of the CNC surface charge changes was monitored through zeta potential measurements. Color changes, or travel, and flop index were used to assess the iridescent effect of the coatings containing CNC. The experimental wood coatings contained CNC showed that the enhancement of the iridescent effect depends on the distribution and alignment of the CNC rod-like particles in order to generate the right pitch in the helical structure and their interaction with the polymer matrix as well with the additives. In conclusion, CNC could be successfully used as effect pigment in finishing systems, which can enhance the attractiveness and bring out the special grain of various types of wood.

Highlights

Nanocrystalline cellulose (CNC) is a renewable material with high potential in many applications
The free films were subsequently analyzed by optical microscopy and circular dichroism
The intensity of the chiral interaction between particles is characterized by the chiral nematic pitch P. Through these micrographs one can visualize the effect of the colorants, additives and varnish on the fingerprint pattern of the CNC chiral-nematic organization and quantify the pitch

Summary

Introduction

Nanocrystalline cellulose (CNC) is a renewable material with high potential in many applications. CNC is generally produced by controlled acid hydrolysis from bleached wood pulp [1, 2] and its production does not pose a significant threat to the environment. Favier et al [4] used CNC as a reinforcing agent in polymer composites. Cao et al [5] prepared water-based polyurethane films with CNC from flax. With the addition of 10% of CNC (w/w), they obtained modulus in flexure values 16 times greater than for regular polyurethane films without CNC. CNC could be of interest to the paint and coatings industries. New high value-added products based on CNC can be developed in this competitive sector

Objectives

Methods

Results

Conclusion