Author Affiliations
1School of Material Science and Engineering, Jingdezhen Ceramic Institute, Jingdezhen 333001, China2National Engineering Research Center for Domestic & Building Ceramics, Jingdezhen 333001, China3Institute of Functional Materials, College of Materials Science and Engineering, Donghua University, Shanghai 201620, Chinashow less
1. XRD patterns of CIZS QDs prepared with different reaction time (with adding ionic liquid, nGSH/n(CuInZn)=15, pH=8.5)
2. (a) PL spectra and (b) evolution of the emission intensity and peak position of CIZS QDs prepared with different reaction time (without ionic liquid, nGSH/n(CuInZn)=15, pH=8.5)
3. (a) PL spectra and (b) evolution of the emission intensity and peak position of CIZS QDs prepared with different reaction time (with ionic liquid, nGSH/n(CuInZn)=15, pH=8.5)
4. TEM images of CIZS QDs prepared with ionic liquid for different reaction time (nGSH/n(CuInZn)=15, pH=8.5)
5. XRD patterns of CIZS QDs prepared with different nGSH/n(CuInZn) ratios (with ionic liquid for 30 min, pH=8.5)
6. (a) PL spectra and (b) evolution of the emission intensity and peak position of CIZS QDs with different nGSH/n(CuInZn) ratios (with ionic liquid for 30 min, pH=8.5)
7. TEM images of CIZS QDs prepared with nGSH/n(CuInZn) ratios (with ionic liquid for 30 min, pH=8.5) at (a) 5, (b) 15, and (c) 25
8. (a) PL spectra and (b) evolution of the emission intensity and peak position of CIZS QDs prepared with different pH (with ionic liquid for 30 min, nGSH/n(CuInZn)=15)
9. Zeta potential and average hydrodynamic size of CIZS QDs with different pH (with ionic liquid for 30 min, nGSH/n(CuInZn)=15)
10. PL spectra of CIZS and CIZS/ZnS QDs
11. (a) EL spectra and (b) CIE coordinate of white LED