The field of nanozymes has developed rapidly over the past decade. Among various oxidoreductases mimics, catalase (CAT)âlike nanozyme, acting as an essential part of the regulation of reactive oxygen species (ROS), has attracted extensive research interest in recent years. However, CATâlike nanozymes are not as well discussed as other nanozymes such as peroxidase (POD)âlike nanozymes, etc. Compared with natural catalase or artificial CAT enzymes, CATâlike nanozymes have unique properties of low cost, sizeâdependent properties, high catalytic activity and stability, and easy surface modification, etc., which make them widely used in various fields, especially in tumor therapy and disease treatment. Consequently, there is a great requirement to make a systematic discussion on CATâlike nanozymes. In this review, some key aspects of CATâlike nanozymes are deeply summarized as: 1) Typical CATâlike nanozymes classified by different nanomaterials; 2) The catalytic mechanisms proposed by experimental and theoretical studies; 3) Extensive applications in regard to tumor therapy, cytoprotection and sensing. Therefore, it is prospected that this review will contribute to the further design of CATâlike nanozymes and optimize their applications with much higher efficiency than before.