Abstract: The concept of precision surgery is closely linked to advancements in modern medical technology and the interdisciplinary integration, profoundly influencing the direction of sur-gical decision‑making and treatment paradigms. At its core, precision surgery aims to strike a balance among lesion removal, organ preservation, and damage control by leveraging key surgical technolo-gies that emphasize visualization, quantification, and controllability, ultimately maximizing patient benefits. In the field of liver cancer diagnosis and treatment, the concept of precision surgery should be integrated throughout the entire course of disease management, including preoperative precision evaluation, intraoperative meticulous procedures, and postoperative careful management. The reali-zation of these advanced concepts depends on continuous technological advancements and process optimization. However, the current diagnosis and treatment of liver cancer still face numerous challenges, such as accurate preoperative assessment of tumor biological behavior, optimization of intraoperative precision resection techniques, and improvement of postoperative recurrence moni-toring and intervention strategies. By employing technologies such as molecular imaging, circulating biomarkers, and artificial intelligence, the concept and practice of precision surgery can be further refined and seamlessly integrated into every stage of liver cancer management. This approach pro-mises to enhance surgical safety and efficacy, offering patients more scientific and efficient treatment options. The authors systematically explain the application of precision surgery concept in the diag-nosis and treatment of liver cancer and the thinking of the future development direction.