Diamagnetism, the material world's subtle push against magnetism, finds a unique expression in graphite. This familiar material, the core of our pencils, exhibits this weak repulsion due in part to the presence of two-dimensional graphene sheets within its structure.This research dives deep, unraveling the mysteries of diamagnetism in graphite with a focus on these intriguing interfaces. Scientists aim to understand how interactions between graphene layers influence this magnetic behavior. By manipulating these interfaces, perhaps through specific chemical treatments or external pressure, researchers can observe the resulting changes in diamagnetism.Such meticulous exploration holds the key to unlocking the secrets of diamagnetism in graphite. This knowledge could pave the way for exciting new materials with controllable diamagnetic properties, potentially leading to advancements in magnetic levitation technology or ultra-sensitive magnetic sensors. Unraveling the role of two-dimensional interfaces in graphite's diamagnetism promises to be a groundbreaking chapter in material science.