Climate change has led to an increase in building energy costs, and, hence, it is vital to enhance building thermal energy efficiency. Thermochromic coatings, e.g., those based on VO2, have great potential in this regard due to their ability to autonomously switch between absorptive and reflective states in response to cold or hot weather, respectively. However, developing a large-scale process for preparing VO2 particles and achieving good durability in practical application are still challenging. In this work, we successfully prepared tungsten-doped VO2 particles with a lower phase change temperature at 29.4 oC using a novel one-step pressure-assisted hydrothermal method, which provides a promising way for its large-scale preparation and application. In order to achieve better durability, we constructed ZnO shells for VO2 particles, and the obtained VO2@ZnO core-shell particles showed a better antioxidation performance. Furthermore, we designed a VO2 coating formula with good hydrophobicity (a contact angle of 108.8o) and adhesion with concrete by adding a certain ratio of PDMS and epoxy, endowing the coating with self-cleaning properties and application potential on building surfaces. This work proposes a high-efficiency hydrothermal preparation method for VO2 particles and improves the durability of VO2 coatings, providing a sustainable solution to energy-saving coatings for construction.
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One-Step Hydrothermal Preparation of Tungsten-Doped VO2 particles and Durability Modification for Building Applications
Published:
25 September 2024
by MDPI
in The 5th International Conference on Materials: Advances in Material Innovation
session Materials Characterization, Processing and Manufacturing
Abstract:
Keywords: Materials synthesis and characterization, Nanoparticle functionalization, Coating formulation