Preparation and characterization of metal organic framework based composite materials for thermochemical energy storage applications

“…This charged material releases heat during the discharging process, enabling applications such as water heating, space heating, and power generation. Thermochemical materials (TCMs) like salt hydrates [33,34], metal hydroxides [35,36], carbonates, zeolites [37,38], metal organic frameworks [39], metal oxides [40], metal hydrides [41][42][43][44] and composites [45,46] exhibit diverse reactions. TCMs offer a significantly higher energy storage density, approximately 8 to 10 times greater than sensible energy storage and twice that of phase change materials (PCMs) [47].…”

A Review on Energy Storage Technologies: Current Trends and Future Opportunities

“…This charged material releases heat during the discharging process, enabling applications such as water heating, space heating, and power generation. Thermochemical materials (TCMs) like salt hydrates [33,34], metal hydroxides [35,36], carbonates, zeolites [37,38], metal organic frameworks [39], metal oxides [40], metal hydrides [41][42][43][44] and composites [45,46] exhibit diverse reactions. TCMs offer a significantly higher energy storage density, approximately 8 to 10 times greater than sensible energy storage and twice that of phase change materials (PCMs) [47].…”

A Review on Energy Storage Technologies: Current Trends and Future Opportunities

Adsorptive removal of Pb2+ ions using stable imine linked covalent organic frameworks: A simulated and experimental studies

Renewable approaches to building heat: exploring cutting-edge innovations in thermochemical energy storage for building heating