Titanyl sulfate-based TiO2-paraffin phase change microcapsules: Evaluation of alkyltriethoxysilane modification and thermoregulation applications

Titanium dioxide (TiO2) phase change microcapsules show promising applications in building temperature regulation and heat transfer due to their high thermal reflectivity and high thermal conductivity. Currently, the preparation of TiO2 microcapsules predominantly relies on expensive and highly toxi...

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Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Physicochemical and engineering aspects, 2025-01, Vol.704, p.135479, Article 135479
Main Authors: Zhang, Baolian, Zhang, Zhen, Fang, Qi, Ma, Yan, Zhao, Hongbin, Fan, Xiaopeng
Format: Article
Language:English
Subjects:
chemical precipitation
enthalpy
heat transfer
lighting
Modified TiO2
permeability
Phase change microcapsule
phase transition
Photothermal conversion
raw materials
Silane coupling agent
sulfates
temperature
thermal conductivity
thermoregulation
titanium
titanium dioxide
Titanyl sulfate dihydrate
toxicity
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Summary:Titanium dioxide (TiO2) phase change microcapsules show promising applications in building temperature regulation and heat transfer due to their high thermal reflectivity and high thermal conductivity. Currently, the preparation of TiO2 microcapsules predominantly relies on expensive and highly toxic titanate as a raw material. In this study, a new type of TiO2-paraffin phase change microcapsules was prepared by chemical precipitation method using cheap and low toxic titanium sulfate dihydrate (TSD) as titanium source and alkyltriethoxysilane as modifier. The results showed that when methyltriethoxysilane was used as a modifier and the dosage was 1/3 of TSD, the core-wall ratio was 1:1, and the reaction temperature was 65 °C, the performance of the modified TiO2 phase change microcapsules was the best. The melting enthalpy was 112.8 J/g, the core material content reached 83.70 %, which was 48.06 % higher than that of the unmodified microcapsules, and the melting permeability ratio was 12.88 %. The test chamber containing the sample TiO2 phase change microcapsules underwent a temperature rise-cooling test, transitioning from 25 ℃ to 65 ℃ under simulated solar light conditions. The heating time for the phase change microcapsules with modified TiO2 was 28 % faster compared to those containing unmodified TiO2, while the cooling time was 13.00 % slower. It is shown that the light conversion, as well as the thermal storage capacity of TiO2 phase change microcapsules, are significantly improved after organosilicon modification. [Display omitted] •A novel Titanyl sulfate-based TiO2 phase change microcapsule was proposed.•Alkyltriethoxysilane was introduced to regular the structure of microcapsule.•New microcapsule features better affordability and lower toxicity.•New microcapsule has higher loading capacity and photothermal conversion efficiency.
ISSN:0927-7757
DOI:10.1016/j.colsurfa.2024.135479