The largest R s (17 02 Ω) of kesterite CZTS CE can be attributed

The largest R s (17.02 Ω) of kesterite CZTS CE can be attributed to the strong ligand of learn more oleylamine on the CZTS NC surface. Similarly, some organic substance capped on the surface of the wurtzite CZTS NCs made the R s (16.2 Ω) of wurtzite CZTS CE higher than that (15.91 Ω) of Pt CE. However, the value of R ct (2.78 Ω) of the wurtzite CZTS CE is lower than that of Pt (2.92 Ω) and kesterite CZTS (3.56 Ω). The smallest R ct for wurtzite CZTS CE implies that it has eximious catalytic activity on the reduction of triiodide and supersedes the expensive Pt as the CE in DSSCs.

The conclusions for the catalytic activity derived from the EIS and CV data are consistent. Figure 4 Nyquist plots for different CEs. The test was performed with the symmetrical

cells fabricated with two identical electrodes. Figure 5 Current density-voltage ( J – V ) curves of DSSCs based on different CEs Epacadostat manufacturer under AM 1.5 (100 mW cm Citarinostat supplier -2 ). Figure 5 shows the photocurrent density-voltage (J-V) curves of these DSSCs with different CE materials, and the detailed photovoltaic parameters are summarized in Table 1. For the DSSC using the kesterite CZTS CE material, the power conversion efficiency (η) of the device was relatively low (4.89%), since the data of photovoltaic parameters such asJ sc, V oc, and FF were low (J sc = 10.20 mA/cm2, V oc = 0.73 V, FF = 65.72%, respectively). For the wurtzite CZTS CE material, the efficiency of the DSSC device was high the (6.89%); the high performance resulted from the improved photovoltaic parameters, such asJ sc, V oc, and FF (J sc = 13.41 mA/cm2, V oc = 0.75 V, FF = 68.69%, respectively). The efficiency of the DSSC using

wurtzite CZTS CE was even better than that of Pt CE (η = 6.23%, J sc = 11.43 mA/cm2). The values of V ocwere almost constant in these DSSC devices using different CE materials. The difference of the efficiency of DSSC devices mainly resulted from the parameters of J sc and FF. The high FF of the wurtzite CZTS CE may be attributed to its relatively low R s[32]. The highest J sc for wurtzite CZTS should come from its high carrier concentration and low resistivity. According to our previous result, the Hall effect measurement demonstrated that compared to the kesterite CZTS films, the wurtzite CZTS films show a higher carrier concentration and lower resistivity [18]. Wurtzite CZTS is a hexagonal crystal system and metastable; perhaps, this structure is beneficial for catalysis and charge conductivity. The J-V results signify that the wurtzite CZTS could be a somewhat economical and effective CE material for DSSC. Conclusions In this work, we used the wurtzite and kesterite CZTS NC films as effective CEs in DSSCs. The measurement of the photovoltaic performance of DSSCs showed that the wurtzite CZTS CE exhibited higher solar energy conversion efficiency (6.89%). The results of CV and EIS demonstrated the superior electrocatalytic activity of the wurtzite CZTS NC films.

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