Synthesis and characterizations of Cu2BaSnS4 nanoparticles via solvothermal route

In present work, Cu2BaSnS4(CBTS) nanoparticles are reported solvothermally synthesized. The formation of single-phase trigonal structure of CBTS nanoparticles is confirmed by shaped structure self-assembling by nanosheets with uniform average thickness 30nm. CBTS materials show abroad absorption in the complete visible range, providing a band-gap value of 1.58eV, indicating potential applications in photocvoltaics. The excellent MB degradation efficiency of 93% under visible light within 100min is achieved, suggesting CBTS is a potential material for effective solar light photocatalytic application. Meanwhile, electrical properties are measured up to 675K, the value of Seebeck coefficient of CBTS material can reach to 111.42 mu V center dot K-1, meanwhile the value of electrical conductivity is 18.24S<middle dot>m(-1), indicating its potential for thermoelectric application.