Abstract
It has always been a huge challenge to prepare the Mo back contact of inorganic compound thin film solar cells (e.g., CIGS, CZTS, Sb2Se3) with good conductivity and adhesion at the same time. High-power impulse magnetron sputtering (HiPIMS) has been proposed as one solution to improve the properties of the thin film. In this study, the HiPIMS technology replaced the traditional DC power sputtering technology to deposit Mo back contact on polyimide (PI) substrates by adjusting the experimental parameters of HiPIMS, including working pressure and pulse DC bias. When the Mo back contact is prepared under a working pressure of 5 mTorr and bias voltage of −20 V, the conductivity of the Mo back contact is 9.9 × 10−6 Ω·cm, the residual stress of 720 MPa, and the film still has good adhesion. Under the minimum radius of curvature of 10 mm, the resistivity change rate of Mo back contact does not increase by more than 15% regardless of the 1680 h or 1500 bending cycle tests, and the Mo film still has good adhesion in appearance. Experimental results show that, compared with traditional DC sputtering, HiPIMS coating technology has better conductivity and adhesion at the same time, and is especially suitable for PI substrates.
Highlights
The advantages of flexible thin film solar cells are their light weight and flexibility [1,2,3]
After 1500 times, the resistivity change rate of the Mo film increased from 0% to 12.7%, the changes remaining around 10% to 15%, which confirms the trends found in previous studies
We examined the influence of High-power impulse magnetron sputtering (HiPIMS) parameters on the structural and electrical properties of the Mo film and identified the optimal parameters and reliability
Summary
The advantages of flexible thin film solar cells are their light weight and flexibility [1,2,3]. Li [4] examined the characteristics of different flexible substrates, among which the glass transition temperature (Tg), high thermal stability, light weight, and transparency of PI substrates make them the most suitable substrate for flexible inorganic compound thin film solar cells (e.g., CIGS, CZTS, Sb2Se3) [5,6]. This study employed the new HiPIMS coating technique to deposit a Mo film on a PI substrate for the back contacts of CIGS and Sb2Se3 solar cells. We experimented with different coating conditions, including working pressure and pulse DC bias, in hopes of improving the properties of Mo back contacts deposited using DC sputtering, achieving lower resistivity and good reliability by controlling the residual stress in the Mo film. We realize a single layer structure of the Mo film to simplify the complex fabrication process of the Mo film with the double-layer structure
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