Ni体积分数对Ni-A12O3太阳光谱选择性吸收薄膜光学性能的影响

功能材料, 2012, 43(20): 2818-2822.

Ni体积分数对Ni-A12O3太阳光谱选择性吸收薄膜光学性能的影响

李镇祥 ^1, , 范泽婷 ^2, , 陆子华 ^3, , 赵剑曦 ^4,

1.福州大学化学化工学院,福建福州350108

2.福州大学化学化工学院,福建福州350108

3.福州大学化学化工学院,福建福州350108

4.福州大学化学化工学院,福建福州350108

基金项目: 福建省青年人才创新基金资助项目(2008F3058) 国家自然科学基金资助项目(20873024)

关键词： Ni体积分数 , Ni-A12O3薄膜 , 光学性能 , 作用规律 , 溶胶一凝胶

Effect of volume fraction of nickel on optical properties of Ni-Al2O3 solar selective absorbing films

Keywords： volume fraction of nickel , Ni-Al2O3 films , optical properties , principle , sol-gel

借助计算机模拟剖析了Ni体积分数对Ni-A12O3太阳光谱选择性吸收薄膜光学性能的影响规律，并依据这一规律指导了以水溶胶一凝胶法制备的Ni-A12O3太阳光谱选择性吸收膜系的优化。模拟结果表明，以呈现类金属特征的基层Ni-A12O3薄膜与Ni体积分数不超过基层0．5倍且呈非金属特征的中间层薄膜组合，在其上再沉积一减反射顶层，如此3层复合可获得高吸收率和低发射率的太阳光谱选择性吸收膜系。依据这一规律指导的以水溶胶一凝胶法制备的Ni-A12O3膜系其吸收率高达0．93，发射率低至0．04，成为一个很好的太阳光选择性吸收表面。

The effect of the volume fraction of nickel on the optical properties of Ni-Alz 03 solar selective absorb- ing films was investigated by computer simulation. The knowledge obtained was used to guide the optimization of Ni-A12O3 coatings fabricated by aqueous sol-gel method. The results of theoretical simulation showed that the double absorbing coatings, of which consists of a base layer with metal-like character and a middle layer with volume fraction less than 0.5 times of the base layer, together with an anti-reflection top layer could pro- duce excellent optical absorption. Based on the principles, the optimized Ni-Al2O3 coatings were fabricated by aqueous sol-gel method, which attained a high solar absorptance of 0.94 and a low thermal emittance of 0.04.

参考文献

[1]	赵剑曦;李镇祥 .一种用于制备太阳光热转换吸收薄膜的水溶胶[P].中国专利:201110109700.0,2011-0429.
[2]	Li Zhenxiang;Zhao Jianxi;Ren Lihui .Aqueous solution- chemical derived Ni-A12 03 solar selective absorbing coat- ings[J].Solar Energy Materials and Solar Cells,2012,105:90-95.
[3]	Li Zhenxiang;Zhao Jianxi .Progress in preparation of so- lar selective absorbing coatings by sol gel method[J].Journal of the Chinese Ceramic Society,2012,40(05):762-768.
[4]	蒋家兴,赵剑曦,廖新焕,李镇祥,姜蓉.溶胶-凝胶法制备Ni-Al2O3太阳光热转换吸收薄膜：过渡金属筛选和还原[J].功能材料,2009(10):1685-1687.
[5]	Sathiaraj T S;Thangaraj R;Agnihotri O P .Ni A1203 cermet solar absorbers by RF planar magnetron sputtering for high temperature applications[J].Solar Energy Materials,1989,18(06):343-356.
[6]	Yitzhak Mastai;Sebastian Polarz;Markus Antonietti .Silica-Carbon Nanocomposites-A New Concept for the Design of Solar Absorbers[J].Advanced functional materials,2002(3):197-202.
[7]	Ritchie I T;Window B .Applications of thin graded-index films to solar absorbers[J].Applied Optics,1977,16(05):1438-1443.
[8]	Harding G L .Alternative grading profile for sputtered solar selective surfaces[J].Journal of Vacuum Science and Technology,1979,16(06):2111-2113.
[9]	Window B;Mckenzie D;Harding G .Selective absorber design[J].Sot Energy Mater,1980,2(04):395-401.
[10]	Farooq M.;Hutchins MG. .A novel design in composities of various materials for solar selective coatings[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2002(4):523-535.
[11]	Shen Yue;Shi Yueyan;Wang Fengchun .High-temper- at ure opticalproperties and stability of AIx Oy-A1N.-A1 solar selective absorbing surface prepared by DC magne tron reactive sputtering[J].Solar Energy Materials and Solar Cells,2003,77(04):393-403.
[12]	Zhang Qichu;Mills D R .New cermet film structures with much improved selectivity for solar thermal appli- cations[J].Applied Physics Letters,1992,60(05):545-547.
[13]	Zhang Qichu;Mills D R .High solar performance selec tive surface using bi sublayer cermet film structures[J].Solar Energy Materials and Solar Cells,1992,27(03):273-290.
[14]	Bostrom T;Westin G;Wackelgard E .Optimization of a solution-chemically derived solar absorbing spectrally selective surface[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2007(1):38-43.
[15]	Zhang Qichu;Hadavi M S;Lee K D et al.Zr-Zr02 cermet solar coatings designed by modelling calculations and deposited by DC magnetron sputtering[J].J PhysD:Appl Phys,2003,36(06):723-729.
[16]	Zhao SX;Wackelgard E .Optimization of solar absorbing three-layer coatings[J].Solar Energy Materials and Solar Cells: An International Journal Devoted to Photovoltaic, Photothermal, and Photochemical Solar Energy Conversion,2006(3):243-261.
[17]	Bruggeman D A G .Calculation of various physics con- stants in heterogenous substances I dielectricity con- stants and conductivity of mixed bodies from isotropic substances[J].Ann Physic-Berlin,1935,24(07):636-664.
[18]	Zhao Shuxi .Spectrally selective solar absorbing coatings prepared by DC magnetron sputtering[D].Uppsala:Uppsala University,2007.
[19]	Heavens O S.Optical properties of thin solid films[M].New York:Dover Publications,Inc,1991
[20]	Bostrom TK;Wackelgard E .Optical properties of solution-chemically derived thin film Ni-Al2O3 composites and Si, Al and Si-Ti oxides[J].Journal of Physics. Condensed Matter,2006(32):7737-7750.
[21]	Ribbing C G;Karlsson B .On the selection of oxides for metal-based tandem absorbers[J].Thin Solid Films,1984,116(04):341-349.

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