In contemporary synthetic chemistry, nickel-catalyzed processes have become indispensable instruments, providing effective and adaptable methods for assembling intricate organic compounds. Recent developments in nickel catalysis are highlighted in this article. Asymmetric catalysis, C-H functionalization, and cross-coupling reactions are just a few of the transformations in which nickel catalysts have proven to be remarkably effective. Furthermore, nickel is a cheaper and more readily available material for catalysis than precious metals. This abstract offers a succinct summary of the major advancements in nickel catalysis, highlighting the metal's usefulness in facilitating a variety of synthetic transformations and its potential to solve problems in modern organic synthesis.