Description

• Application: Study of interaction between H2O molecules and ZTO-ZHS surface: This study explores the interaction of water molecules with zinc stannate and potassium stannate trihydrate surfaces, crucial for understanding their chemical properties and potential applications (EA Levkevich et al., 2020). Flexible solid-state supercapacitor based on tin oxide/reduced graphene oxide/bacterial nanocellulose: Discusses the use of potassium stannate trihydrate in the synthesis of high-performance energy storage devices, showcasing the material′s utility in enhancing conductivity and stability (KK Liu et al., 2018). Significantly enhanced dye removal performance of hollow tin oxide nanoparticles via carbon coating in dark environment and study of its mechanism: This research investigates the use of potassium stannate trihydrate for the synthesis of tin oxide nanoparticles, which significantly improve dye removal from water (S Yang et al., 2014). High Temperature CO2 Capture Performance and Kinetic Analysis of Novel Potassium Stannate: Examines the application of potassium stannate trihydrate in high-temperature CO2 capture, highlighting its potential to enhance the efficiency of carbon capture technologies (R Baird et al., 2023).