硅酸盐学报2024,Vol.52Issue(7):2175-2186,12.DOI:10.14062/j.issn.0454-5648.20230803
Al2O3掺杂无色聚酰亚胺/Ag柔性薄膜的辐射致冷性能
Radiative Cooling Properties of Al2O3-Doped Colorless Polyimide/Ag Flexible Films
摘要
Abstract
Introduction The famous"10℃ law"indicates that the reliability of electronic devices is closely related to the temperature,i.e.,the reliability can be reduced by 50%for every 10℃ increase in temperature when the temperature of electronic devices exceeds 80℃.It is thus extremely important to discharge the waste heat of electronic devices in time to achieve an efficient device cooling.Heat transfer methods include heat conduction,heat convection and heat radiation.Conventional air-cooled and liquid-cooled achieve cooling via heat convection and heat conduction.In addition,the cooling technologies also include magnetic cooling(i.e.,magneto-thermal effect),phase change cooling(i.e.,phase change heat storage)and thermoelectric cooling(i.e.,the Peltier effect).With the high integration and miniaturization of electronic devices,especially flexible electronic devices limited by size and deformation,conventional cooling technologies are no longer applicable.The newly flexible radiative cooling films with zero power consumption become potential candidates for cooling electronic devices and are expected to promote the development of the national dual-carbon cause,which can emit heat to outer space through thermal radiation and reject solar irradiance.However,it is extremely difficult to combine outstanding radiative cooling performance with excellent thermostability limited by materials and preparation process.In this paper,Al2O3-doped colorless polyimide hybrid films were prepared by a sol-gel method.The infrared radiation enhanced by Al2O3 phonon-enhanced resonance and the higher thermostability because of the interaction of Al2O3 nanoparticles with the molecular chains were analyzed. Methods TFMB(0.365 7 g)was mixed with DMAc(6 mL)under electromagnetic stirring at 0℃.Al(OH)3 sol at different contents(i.e.,0%,5%,10%,15%,and 20%,in mass fraction)was added to the solution above.An accurately weighed 6FDA(0.503 6 g)was sequentially added to a trident flask in batches for 1 h,and then stirred continuously for 30 min.Subsequently,the mixture was stirred at room temperature for 4 h.The obtained precursor poly(amido acid)(PAA)solution was rested for 12 h. The PAA solution was coated onto a dry clean glass substrate by a spin-coating method and dried in a vacuum tube furnace at 80℃ for 1 h and then at 50℃ for 12 h to ensure that the solvent was removed completely.The sample was heated in a vacuum tube furnace in respective heating steps(i.e.,at 110℃ for 30 min;at 140℃ for 30 min;at 170℃ for 30 min;at 200℃ for 30 min;at 220℃ for 30 min;and at 280℃ for 60 min). The obtained Al2O3-doped colorless polyimide(CPI)films were ultrasonically cleaned with absolute alcohol and deionized water for 30 min.The films were blown dry and put into a vacuum chamber.A 300 nm thick silver(Ag)film was deposited on the backside of the Al2O3-doped CPI film via direct current sputtering at 6×10-4 Pa.The argon flow rate,sputtering pressure and Ag target power were 50 cm3/min,0.5 Pa and 100 W,respectively. Results and discussion The mid-infrared emissivities(5-20 µm)of Al2O3-doped CPI/Ag hybrid films increase with increasing Al2O3 content.The mid-infrared emissivities are measured as ε(0%)=87.54%,ε(5%)=92.15%,ε(10%)=92.23%,ε(15%)=93.25%,and ε(20%)=94.51%,respectively.The solar reflectivities(0.4-2.5 µm)decrease with increasing Al2O3 content.The solar reflectivities(R)are measured as R(0%)=94.81%,R(5%)=91.12%,R(10%)=89.31%,R(15%)=88.36%,and R(20%)=83.87%,respectively.This is because the scattering effect of the hybrid films increases with increasing Al2O3 content.The visible reflectivities(0.40-0.75 µm)firstly increase and then decrease with increasing Al2O3 content.The 5%Al2O3-doped CPI/Ag hybrid film has the maximum reflectance in the visible band,which can effectively improve the net cooling power of the hybrid film.Meanwhile,the intense interaction of Al2O3 nanoparticles with the molecular chains can effectively enhance the thermostability of the hybrid films.Compared with 0%Al2O3-doped CPI film,the glass-transition temperature(Tg)of 5%Al2O3-doped CPI film is 328℃,which is increased by 22℃. Conclusions The Al2O3-doped CPI hybrid film was prepared by a sol-gel method.The infrared radiation increased due to the phonon-enhanced resonance,and the thermostability improved due to the interaction between Al2O3 nanoparticles and molecular chains.The 5%Al2O3-doped CPI/Ag hybrid film had a high solar(0.4-2.5 μm)reflectivity(i.e.,91.12%)and a mid-infrared(5-20 μm)emissivity(i.e.,92.15%).The maximum cooling capability of 7.7℃ and 11.1℃ that were lower than that of bare aluminum device was achieved under sunlight.The Al2O3-doped CPI hybrid film exhibited superior thermostability(i.e.,Tg∼328℃),and thermal decomposition temperature(i.e.,T5%∼554℃).The results indicated an effective strategy to realize efficient radiative cooling for electronic devices and appendages in spacecraft.关键词
柔性薄膜/辐射致冷/热稳定性/电子器件Key words
flexible film/radiative cooling/thermostability/electronic devices分类
通用工业技术引用本文复制引用
梁冬冬,任杰,刘欢,杨映新,Atsha Ambar,孙莹,王聪..Al2O3掺杂无色聚酰亚胺/Ag柔性薄膜的辐射致冷性能[J].硅酸盐学报,2024,52(7):2175-2186,12.基金项目
国家自然科学基金项目(52272264,51972013). (52272264,51972013)
