This article reports the design and fabrication of a new double cermet-based low-mid temperature solar selective absorber based on TiOx cermet layers, which were deposited with a single Ti target by varying O-2 partial pressure in sputtering chamber as reactive gas. High metal volume fraction cermet 1 and low metal volume fraction cermet 2 were deposited with O-2 partial pressure of 0.15 mTorr and 0.25 mTorr, respectively, with direct current power density of 6.58W cm(-2). The complex refractive indices from ellipsometry were used to design solar selective absorber. The reflectance, thermal stability, and morphology were studied in absorbers on Cu and stainless steel. The effect of TiO2 and SiO2 as anti-reflective coating layers was investigated. The absorber on Cu substrate has high absorptance of 90.8% and low emittance of 4.9% (100 degrees C), and changed to 96.0% and 6.6%, respectively, after annealing at 300 degrees C for 4 days.

• 出版日期2016-1-28