Nano- to Microscale Three-dimensional Morphology Relevant to Transport Properties in Reactive Porous Composite Paint Films

Overview

Journal Sci Rep

Specialty Science

Date 2020 Oct 28

PMID 33110102

Citations 2

Authors

Xiaoyang Liu

Valeria Di Tullio

Yu-Chung Lin

Vincent DE Andrade

Chonghang Zhao

Cheng-Hung Lin

Molly Wagner

Nicholas Zumbulyadis

Cecil Dybowski

Silvia A Centeno

Yu-Chen Karen Chen-Wiegart

Affiliations

Soon will be listed here.

Abstract

The quantitative evaluation of the three-dimensional (3D) morphology of porous composite materials is important for understanding mass transport phenomena, which further impact their functionalities and durability. Reactive porous paint materials are composites in nature and widely used in arts and technological applications. In artistic oil paintings, ambient moisture and water and organic solvents used in conservation treatments are known to trigger multiple physical and chemical degradation processes; however, there is no complete physical model that can quantitatively describe their transport in the paint films. In the present study, model oil paints with lead white (2PbCO·Pb(OH)) and zinc white (ZnO) pigments, which are frequently found in artistic oil paintings and are associated with the widespread heavy metal soap deterioration, were studied using synchrotron X-ray nano-tomography and unilateral nuclear magnetic resonance. This study aims to establish a relationship among the paints' compositions, the 3D morphological properties and degradation. This connection is crucial for establishing reliable models that can predict transport properties of solvents used in conservation treatments and of species involved in deterioration reactions, such as soap formation.

Citing Articles

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