“…Fracturing is the most effective reservoir modification method in the process of developing low-permeability and ultralow-permeability tight oil and gas reservoirs. , Currently, the most commonly used fracturing working fluid is a water-based fracturing fluid system represented by slick water. , However, water-based fracturing fluids have problems such as high water consumption, easily cause environmental pollution, and are not suitable for water-sensitive reservoirs. − In this respect, fracturing of tight reservoirs using supercritical carbon dioxide (SC-CO 2 ) seems to give better results. , As a fracturing fluid, SC-CO 2 is not introduced into the water phase during the fracturing process, which saves water resources and does not produce water-sensitive phenomena. , SC-CO 2 has the advantages of a high diffusion coefficient and low interfacial tension, allowing SC-CO 2 to penetrate into microcracks and better connect the reservoir. − SC-CO 2 has good flow, penetration, and transfer properties and has advantages in reducing crack initiation pressure, connecting microcracks, forming complex fracture networks, and providing the possibility of carbon dioxide sequestration (Figure ). ,, As a waterless fracturing method with broad prospects, SC-CO 2 fracturing is not yet clear about its complex mechanism and needs further theoretical support.…”