Multifunctional VO2 Smart Coating on Car Roof 第七届全国颗粒材料计算力学会议暨第四届计算颗粒技术国际研讨会 The 7th National Conference on Computational Mechanics of Granular Materials in conjunction with The 4th International Symposium on Computational Particle Technology CMGM-2024 & CPT-2024

报告详情

Multifunctional VO2 Smart Coating on Car Roof

编号：235 访问权限：仅限参会人更新：2024-04-30 10:34:43 浏览：126次口头报告

报告开始：暂无开始时间（Asia/Shanghai）

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摘要

Transition metal oxide nanoparticles have great potential in environmentally and energy-related applications because of their various electronegativity and unique lattice structures. The dispersible functional nanoparticles could extremely increase the performance of the functional materials. Transition metal oxides have the complex valence state and various electronegativity, endowing them with unique properties for specific application. Unlike their traditional counterparts that passively provide invariable functions, they can actively sense and consequently respond to a stimulus in their environment in a manner that is noticeable, controllable, predictable and predetermined.The tungsten oxide and vanadium oxide have gain great interest during the last decades. Their controllable nanostructures provide them great potential in environmentally and energy-related applications. A scale-up method to produce monodispersed m-VO2 nanoparticles with controlled phase transition temperature was promoted. The findings in catalyst ammonia help us improve the productivity of m-VO2 over 20 times than lab scale. The continuous hydrothermal reaction allowed the excess feeding of raw materials, extremely increased the cost- and time- efficiency of the m-VO2 production. And is of great importance to analogous materials. The pre-treatment method used to control the oxygen defects decreased the phase transition temperature to room temperature. The applied dispersion strategy achieved the effective monodisperse of the nanoparticle, and the resulted coating achieved a ΔTsol 11% at the visible light transmittance up to 85%.

关键词

Smart Coating

报告人

FanWeiren

Monash University

稿件作者

FanWeiren Monash University

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重要日期

会议日期

05月31日

2024

至

06月03日

2024
06月03日 2024

摘要截稿日期
06月03日 2024

初稿截稿日期
06月03日 2024

注册截止日期

主办单位

中国力学学会
计算力学专业委员会
颗粒材料计算力学专业组

承办单位

河海大学
大连理工大学
中国颗粒学会
江苏省力学学会

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历届会议

2022年10月21日中国杭州市
第六届全国颗粒材料计算力学会议
2021年03月26日中国 Wuhan
第五届全国颗粒材料计算力学会议
2018年07月06日中国
第四届全国颗粒材料计算力学会议
2016年07月30日中国大连市
第三届全国颗粒材料计算力学会议
2014年08月22日中国兰州市
第二届全国颗粒材料计算力学大会

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第七届全国颗粒材料计算力学会议暨第四届计算颗粒技术国际研讨会 (CMGM-2024 & CPT-2024)

The 7th National Conference on Computational Mechanics of Granular Materials in conjunction with The 4th International Symposium on Computational Particle Technology