Comprehensive Understanding of Aluminosilicate Phosphate Geopolymers: A Critical Review

Aluminosilicate phosphate (ASP) geopolymers are a new kind of green cementitious materials synthesized from aluminosilicate precursors and acidic activators (phosphoric acid or phosphate), which have received extensive attention from researchers because of their excellent and unique characteristics. The current investigation indicates that ASP geopolymers have the characteristics of a low-carbon synthesis process, high mechanical properties (e.g., the highest compressive strength can reach 146 MPa), a strong heat resistance (e.g., withstanding a high temperature of 1500 degrees C), and excellent dielectric properties. These excellent properties make them have broad application prospects in the fields of new building materials, coating materials, insulating materials, and heavy metal curing. Based on the research findings of approximately 85 relevant literatures on ASP geopolymers in past decades, this paper focuses on the latest research progress of ASP geopolymers from the perspectives of synthesis processes, performances, modifications, and application developments. In addition, this study summarizes the key problems existing in the current research of ASP geopolymers and suggests their possible applications in the future, which will help to provide directions for further research activities of relevant researchers.

Automated summary

Aluminosilicate phosphate (ASP) geopolymers have received extensive attention due to their low-carbon synthesis process, high mechanical properties, strong heat resistance, and excellent dielectric properties. This paper summarizes the latest research progress of ASP geopolymers in terms of synthesis processes, performances, modifications, and application developments, and suggests possible future applications.